Post on 21-May-2018
. 3K-,
A-
m Wafer Fab Equipment Data Base
The following is a list of material found in this section:
• Introduction to the Wafer Fab Equipment Data Base
• Wafer Fab Equipment—Summary Data by Category
• Wafer Fab Equipment—In^ort/Export Data
• Wafer Fab Equipment—Company Shares by Category
• Wafer Fabrication Equipnnent Forecast
SEMS Markets and Technology ® 1987 Dataquest Incorporated August
Introduction to the Wafer Fab Equipment Data Base
Dataquest's Semiconductor Equipment and Materials Service (SEMS) is publishing for the first time its comprehensive data base on wafer fabrication equipment. This data base is the result of an extensive research project conducted by SEMS. We contacted the world's major wafer fab equipment manufacturers, obtaining detailed regional and company market share data for the years 1982 through 1986.
Dataquest has organized the wafer fab equipment market into 10 major categories of front-end processing equipment. These categories, along with key subcategories, are shown in Table 1.
Dataquest estimates the capital spending by the world's merchant and captive semiconductor manufacturers and publishes this estimate in the SEMS Industry Econometrics notebook, behind the "Capital Spending" tab. We consider capital spending to consist of three components: spending for front-end, or wafer fab equipment; spending for back-end, or assembly and test equipment; and spending for property and plant. Thus, the total world market for the 10 categories of wafer fab equipment defined above should equal the total capital spending for front-end equipment by the world's semiconductor manufacturers.
Most of the equipment categories are self-explanatory; however, a few categories require further definition. The Process Control category represents a broad market that includes mask and wafer inspection equipment, process monitoring equipment, surface analysis equipment, and analytical instrumentation. This market is a highly fragmented market with dozens of companies selling into a multitude of noncompetitive market niches.
Factory Automation includes CIM software for shop floor control, factory host computer systems, cell controllers and interface hardware, and wafer transport systems including automatic guided vehicles, robotics, and rail transport systems.
Other Equipment is a general, catch-all category that includes the other capital equipment used throughout the fab but not classified with the other nine major types of wafer processing equipment. Included in this segment are decontamination systems, wafer markers, gas analyzers, storage stations, and other types of equipment.
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Introduction to the Wafer Fab Equipment Data Base
Table 1
WAFER FAB EQUIPMENT CATEGORIES
1. L i thography
Contact /Proxim i ty P r o j e c t i o n Aligners Steppers Direct-Write E-Beam Maskmaking E-Beam X-Ray
2. Automatic Photoresist Processing Equipment
3. Etch and Clean
Wet Process Dry Strip Dry Etch Ion Milling
4. Deposition
Chemical Vapor Depo s i t ion Physical Vapor Deposition Silicon Epitaxy Metalorganic CVD Molecular Beam Epitaxy
5. Diffusion
6. Rapid Thermal Processing
7. Ion Implantation
Medium Current High Current High Voltage
8. Process Control
9. Factory Automation
10, Other Equipment
Source: Dataquest August 1987
© 1987 Dataquest Incorporated August SEMS Markets and Technology
Introduction to the Wafer Fab Equipment Data Base
COMVEIJITIOHS
The data in the tables represent calendar year shipments, organized by company or by region. For companies with a different fiscal year, calendar year shipments have been estimated. Shipments do not include spare parts or service but do include retrofits and upgrades. Thus, for public companies, the sales reported here may be different from the sales reported in the annual reports. The compound annual growth rate (CAGR) is estimated over the years 1982 to 1986 for each major line item.
EXCHANGE RATES
Japanese-manufactured equipment sold in Japan is valued in dollars in the data base tables at the average exchange rate for each year, as shown below:
^^N/DOLLAR EXCHANGE SATE
1982
248
1983
235
1984
237
1985
238
1986
167
It should be noted that Japanese equipment sold in Japan in 1986 reflects the high yen appreciation rate rather than a true increase in the total market.
EQUIPMENT COMPANIES
Table 2 presents a list of the equipment companies found in the data base tables by region of company ownership. There are a total of 61 U.S. equipment companies, 41 Japanese companies, and 23 European companies in the data base. These 125 major companies account for nearly all of the world's wafer processing equipment in lit:hography, automatic photoresist processing equipment, dry strip and dry etch, deposition, diffusion, rapid thermal processing, and ion implantation.
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Introduction to the Wafer Fab Equipment Data Base
Table 2
EQUIPMENT COMPANIES
U.S. Companies
AG Associates American Semiconductor Equipment Technology Anicon Applied Materials
Branson/IPC BTU/Bruce CHA Industries Circuits Processing Apparatus Crystal Specialties
CVC Products CVD Equipment Denton Vacuum Drytek Eaton
Emergent Technologies Emcore Epitaxy, Inc. Focus Semiconductor Gasonics
GCA Gemini Research General lonex Genus Hampshire Instruments
Ion Tech KLA Instruments LAM Research Kurt J. Lesker LFE
Japanese Companies
Alcan Tech Amaya Anelva BIPC BTU/Ulvac
Canon Dainippon Screen Denki Eiko Enya Ergo Plasma Systems
Hitachi Hohkoh Sangyo Japan Production Eng, JEOL Kokusai
Koyo Lindberg Nikon Nippon FMC Nippon Sanso Nissin High Voltage
Plasma Systems Ramco Samco Seiden Seiko
Shimada Sinko Seiki SPC Electronics Sumitomo Tazmo
European Companies
Advanced Semiconductor Materials AET Aixtron ASM Lithography
Balzers Cambridge Instruments Centrotherm Convac CVT Edwards High Vacuum
EEV E.T. Electrotech HVE Europa Isa Riber Leybold-Heraeus
Thomas Schwonn Helmut Seier Sitesa Karl Suss Technics
Temescal VG Instruments Wellman Furnaces
(Continued)
1987 Dataquest Incorporated August SEMS Markets and Technology
Introduction to the Wafer Fab Equipment Data Base
Table 2 (Continued)
EQnin4EKT COMPANIES
U.S. Companies Japanese Companies European Companies
Machine Technology TEL/LAM Materials Research Corp. TEL/Thermco Matrix TEL/Varian Micronix Tokyo Electron Ltd. Nanometrics Tokyo Ohka
Nanosil Tokuda National Electrostatics Toshiba Novellus Ulvac Optical Specialties, Inc. Ushio Pacific Western Yawata
Peak Systems Perkin-Elmer Plasma-Therm Process Products Process Technology
Psi Star Semiconductor Systems, Inc. Silicon Valley Group Spectrum CVD Spire Corporation
Sputtered Films Reid-Ashman Tamarack Scientific Tegal Tempress
Thermco Torrvac Tylan Ultratech Varian
Watkins-Johnson Veeco
Source: Dataguest August 1987
SEMS Markets and Technology ® 1987 Dataguest Incorporated August
Wafer Fab Equipment—Summary Data by Category
This section of the equipment data base consists of two summary tables for the worldwide fab equipment market. Both tables present sales by equipment category for the years 1982 to 1986. In Table 1, the annual sales for each equipment category are organized by region of equipment sales; in Table 2, euinual sales for each equipment category are organized by equipment vendor nationality (United States, Japan, and Europe).
For example, the total worldwide sales for contact/proximity aligners of $45 million in 1982 is the same in both Table 1 and Table 2; however, whereas Table 1 breaks the sales down by region. Table 2 breaks the sales down by nationality of the companies supplying the aligners.
In Table 2, the subtotal fab equipment line item designates that portion of the total worldwide fab equipment market for which detailed company data are available. For some of the categories in Table 2 (Wet Process, Ion Milling, Process Control, Factory Automation, and Other Equipment), detailed company data are not yet complete. For these categories, top-down estimates have been made and included in Tables 1 and 2 so that world fab equipment sales are consistent across all tables. Detailed company data are available for about 75 percent, on average, of the total worldwide wafer fab equipment market for the years 1982 to 1986.
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Wafer Fab Equipment—Summary Data by Category
Table 1
WORLDWIDE WAFER FAB EQUIPMENT MARKET REGIONAL SHARES BY CATEGORY
(Millions of Dollars)
World Fab Equipment Market
Lithography
Contact/Proximity United States Japan Europe Rest of World
Total Cont./Prox.
Projection Aligners United States Japan Europe Rest of World
Total Projection
Steppers United States Japan Europe Rest of World
Total Steppers
Direct-Write E-Beam United States Japan Europe Rest of World
1982
1,415.8
11.0 25.6 6.2 2.2
45.0
72.0 29.1 16.5 5,0
122.6
70.5 61.8 6.4 0.7
139.4
4.5 7.8 3.8 0
1983
2,126.8
15.5 17.5 6.9 2.4
42.3
84.0 47.8 22.4 6.5
160.7
121.8 155.2 12.4 7.2
296.6
5.3 8.5 5.6 2t5
1984
3,529.5
23.7 25.1 9.2 7.6
65.6
121.0 78.1 35.0 9.5
243.6
214.9 282.2 32.0 22.5
551.6
8.9 12.0 6.8 2.5
1985
3,341.3
15.6 19.1 7.1 7.1
48.9
124.0 105.3 31.9 12.5
237.7
137.5 242.4 57.0 31.2
468.1
13.4 11.0 9.2 0
1986
2,598.2
11.1 8.4 6.0 5.2
30.7
102.6 53.2 25.4 9.8
191.0
151.5 98.1 40.5 24.2
314.3
31.0 28.0 8.5 0
CAGR 1982-1986
16.4%
0.2% (24.3%) (0.8%) 24.0%
(9.1%)
9.3% 16.3% 11.4% N/A
11.7%
21.1% 12.2% 58.6% 142.5%
22.5%
62.0% 37.6% 22.3% N/A
Total Direct-Write 16.1 21.9 30.2 33.6 67.5 43.1%
(Continued)
© 1987 Dataquest Incorporated August SEMS Markets and Technology
•
Wafer Fab Equipment—Summary Data by Category
Table 1 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET REGIONAL SHARES B7 CATEGORY
(Millions of Dollars)
Lithooraphy (Continued)
Maskmaking E-Beam United States Japan Europe Rest of World
Total Maskmaking
X-Ray United States Japan Europe Rest of World
Total X-Ray
Total Lithography United States Japan Europe Rest of World
Total Lith.
Automatic Photoresist Processing Equipment United States Japan Europe Rest of World
Total Track
1992
11.6 20.6 5.2 0
37.4
0 0 0 Q.
0
169.6 144.9 38.1 7.9
360.5
39.7 27.8 7.6 1.4
76.5
1983
24.5 12.4 8.8 0
45.7
0 0 0
a 0
251.1 241.4 56.1 18f6
567.2
46.0 42.4 10.7 1.3
100.4
1984
20.6 33.0 7.6 0
61.2
0 0.8 1.0 0
1.8
389.1 431.2 91.6 42.1
954.0
84.9 68.4 23.5 8.3
185.1
1985
39.1 36.6 4.0 2,7
82.4
0 0.8 1.0 0
1.8
329.6 415.2 110.2 5315
908.5
68.5 63.1 21.6 12.5
165.7
1986
27.0 30.0
0 0
57.0
0 0.8 0
_ a 0.8
323.2 218.5 80.4 39.2
661.3
59.1 50.5 26.3 7.6
143.5
CAGR 1982-1986
23.5% 9.9%
(100.0%) N/A
11.1%
N/A N/A N/A N/A
N/A
17.5% 10.8% 20.5% 49.3%
16.4%
10.5% 16.1% 36.4% 52.6%
17.0%
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Wafer Fab Equipment—Summary Data by Category
Table 1 (Continued)
HORLDHIDE HAFER FAB EQUIPMEKT MARKET REGIONAL SHARES BY CATEGORY
(Millions of Dollars)
#
1982 1983 1984 1985 1986 CAGR
1982-1986
Etch and Clean
Wet Process United States Japan Europe Rest of World
32.3 27.4 7.3 1.1
41.6 41.2 9.7 2.6
56.3 57.1 13.7 4.7
40.2 45.4 13.1 6.0
35.0 29.7 12.9 5,1
2.0% 2.0% 15.3% 46.7%
Total Wet Process 68.1 95.1 131.8 104.7 82.7 5.0%
Dry Strip United States Japan Europe Rest of World
9.0 7.0 2.0 lt5
17.0 10.9 4.0 2.0
22.0 15.6 5.0 2.0
13.8 15.0 5.0 3.0
13.2 13.9 3.0 2.0
10.0% 18.7% 10.7% 7.5%
Total Dry Strip 19.5 33.9 44.6 36.8 32.1 13.3%
Dry Etch United States Japan Europe Rest of World
47.0 42.2 4.0 0
99.0 68.1 16.0 2.0
165.0 110.3 29.0 10.0
145.4 104.5 31.4 17.0
97.7 84.6 38.8 15.0
20.1% 19.0% 76.5% N/A
Total Dry Etch 93.2 185.1 314.3 298.3 236.1 26.2%
Ion Milling United States Japan Europe Rest of World
1.7 2.8 1.6 0
1.9 2.8 1.6 _ Q
3.9 2.8 1.6 0
2.2 2.8 1.5 _ Q
3.7 1.5 1.6 0
21.5% (14.4%)
0% N/A
Total Ion Milling 6.1 6.3 8.3 6.5 6.8 2.8%
(Continued)
1987 Dataguest Incorporated August SEMS Markets and Technology
#
Wafer Fab Equipment—Summary Data by Category
Table 1 (Continued)
HORLDHIDE HAFER FAB EQUI»<ENT MARKET REGIONAL SHARES B7 CATEGORY
(Millions of Dollars)
1982
Etch and Clean (Continued)
T o t a l Etch and Clean United States Japan Europe Rest of World
Total E&C
Deposition
CVD United States Japan Europe Rest of World
90.0 79.4 14.9 2.6
186.9
1963
159.5 123.0 31.3 6.6
320.4
1984
247.2 185.8 49.3 16,7
499.0
1985
201.6 167.7 51.0 26.0
446.3
1986
149.6 129.7 56.3 22.1
357.7
CAGR 1982-1986
13.5% 13.1% 39.4% 70.7%
17.6%
3 7 . 4 4 1 . 7 1 1 . 0
1 . 5
6 1 . 5 7 2 . 8 1 2 . 1
3 . 6
8 8 . 8 1 0 5 . 9
2 3 . 0 8 . 1
7 9 . 1 1 0 0 . 0
3 0 . 8 1 4 . 8
6 2 . 5 7 6 . 3 3 3 . 1 1 3 . 4
13.7% 16 .3% 31.7% 72.9%
Total CVD 91.6 150.0 225.8 224.7 185.3 19.3%
PVD United States Japan Europe Rest of World
6 2 . 9 4 5 . 7 2 0 . 7
1 . 5
6 2 . 3 6 2 . 6 2 4 . 9
4 . 9
9 8 . 5 9 7 . 5 3 2 . 5
7 . 7
1 0 9 . 6 9 9 . 7 4 3 . 8 1 4 . 9
1 0 2 . 1 7 6 . 7 4 6 . 6 1 9 . 7
12.9% 13.8% 22 .5% 90.4%
Total PVD 130.8 154.7 236.2 268.0 245.1 17.0%
Silicon Epitaxy United States Japan Europe Rest of World
19.0 23.9 3.0 IfP
Total Silicon Epi. 46.9
2 4 . 0 3 2 . 8
6 . 0 2 . 0
4 3 . 7 5 0 . 1 1 3 . 0
5 . 0
2 7 . 3 2 6 . 2 1 3 . 0
5 . 0
1 6 . 2 1 6 . 5 1 1 . 2
5 t 4
(3.9%) (8.8%) 39.0% 52.4%
64.8 111.8 71.5 49.3 1.3%
(Continued)
SEMS Markets and Technology ® 1987 Dataguest Incorporated August
Wafer Fab Equipment—Summary Data by Category
Table 1 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET REGIONAL SHARES BY CATEGORY
(Millions of Dollars)
1982 1983 1984 1985 1986 CAGR
1982-1986
Deposition (Continued)
Metalorganic CVD United States Japan Europe Rest of World
0 2.1 0.2 0
1.2 4.8 1.4 0 ^
4.8 9.3 2.1 Q
9.4 10.8 4.7
a
10.5 15.0 4.6 0
N/A 63.5% 119.0%
N/A
Total MOCVD 2.3 7.5 16.2 24.9 30.1 90.2%
Molecular Beam Epitaxy United States 8.9 15.6 22.8 26.3 29.8 35.3% Japan 5.9 11.3 12.9 16.7 21.9 38.8% Europe 7.3 8.9 10.1 14.8 20.4 29.3% Rest of World 0 0.7 1.4 2.6 1.9 N/A
Total MBE 22.1 36.5 47.2 60.4 74.0 35.3%
Total Deposition United States Japan Europe Rest of World
1 2 8 . 2 1 1 9 . 3
4 2 . 2 4 . 0
1 6 4 . 6 1 8 4 . 3
5 3 . 3 1 1 . 3
2 5 8 . 6 2 7 5 . 7
8 0 . 7 2 2 . 2
2 5 1 . 7 2 5 3 . 4 1 0 7 . 1
3 7 . 3
2 2 1 . 1 2 0 6 . 4 1 1 5 , 9
4 0 . 4
14.6% 14.7% 28.7% 7 8 . 3 %
Total Deposition 293.7 413.5 637.2 649.5 583.8 18.7%
Diffusion United States Japan Europe Rest of World
3 9 . 3 4 7 . 0 1 6 . 2
2 . 7
4 3 . 4 5 7 . 6 1 1 . 3
9 . 3
7 7 . 6 8 2 . 6 2 9 . 5
9 . 5
7 7 . 0 9 1 . 9 3 0 . 5 1 2 . 8
5 8 . 1 7 0 . 2 2 7 . 7
9 . 6
10 .3% 10.6% 14.4% 3 7 . 3 %
Total Diffusion 105.2 121.6 199.2 212.2 165.6 12.0%
(Continued)
1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Summary Data by Category
Table 1 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET REGIONAL SHARES BY CATEGORY
(Millions of Dollars)
Rapid Thermal Processing United States Japan Europe Rest of World
Total RTF
Ion Implantation
Medi\un Current United States Japan Europe Rest of World
Total Med. Cur.
High Current United States Japan Europe Rest of World
Total High Cur.
High Voltage United States Japan Europe Rest of World
1982
1.4 0.8 0.1 __fi
2.3
31.0 21.7 4.3 0
57.0
24.0 25.7 4.0 0
53.7
0.2 0.4 0
__Q
1983
1.4 2.2 0.3
__a 3.9
38.0 30.5 13.0 1.0
82.5
34.0 45.2 8.0 3,0
90.2
1.1 0 0 0
1984
3.3 5.1 1.7 Orl
10.2
53.0 39.7 21.9 3.5
118.1
65.4 78.1 16.7 6.7
166.9
1.1 0 0 0
1985
5.8 4.9 2.2 0.9
13.8
35.9 62.2 22.6
u.i 131.8
42.3 90.3 21.3 17.5
171.4
0.9 0.3 1.2 _ Q
1985
7.0 5.5 2.6 1.3
16.4
15.8 24.2 10.4 5.9
56.3
12.8 20.7 17.0 7.9
58.4
12.0 2.3 0.3 0
CAGR 1982-1986
49.5% 61.9% 125.8%
N/A
63.4%
(15.5%) 2.8% 24.7% N/A
(0.3%)
(14.5%) (5.3%) 43.6% N/A
2.1%
178.3% 54.9% N/A N/A
Total High Volt. 0.6 1.1 1.1 2.4 14.6 122.1%
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Wafer Fab Equipment—Summary Data by Category
Table 1 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET REGIONAL SHARES B7 CATEGORY
(Millions of Dollars)
1982 1983 ISM 1985 1986 CAGR
1982-1986
Ion Implantation (Continued)
Total Implantation United States Japan Europe Rest of World
5 5 . 2 4 7 . 8
8 .3 0
7 3 . 1 7 5 . 7 2 1 . 0
4 . 0
1 1 9 . 5 1 1 7 . 8
3 8 . 6 1 0 . 2
7 9 . 1 1 5 2 . 8
4 5 . 1 2 8 . 6
4 0 . 6 4 7 . 2 2 7 . 7 1 3 . 8
(7.4%) (CS-'b) 35.2%
N/A
Total Implantation 111.3 173.8 286.1 305.6 129.3 3.8%
Process Control United States Japan Europe Rest of World
1 0 1 . 9 7 7 . 7 2 1 . 5
3 . 7
1 3 5 . 8 1 2 0 . 6
2 9 . 9 9 . 9
2 2 8 . 9 2 0 8 . 0
5 2 . 1 1 9 . 5
1 6 8 . 0 1 7 6 . 5
5 2 . 0 2 6 . 0
1 6 2 . 2 1 3 1 . 1
5 7 . 5 2 2 . 7
12 .3% 14.0% 27.9% 57.4%
Total Proc. Cont. 204.8 296 .2 508.5 422.5 373.5 16.2%
Factory Automation United States Japan Europe Rest of World
8 . 5 1 3 . 5
2 . 5 0 . 5
1 8 . 0 3 0 . 5
4 . 5 1 .5
3 9 . 0 7 6 . 5
7 . 0 2 t 5
3 3 . 0 5 9 . 0
6 . 5 1.0
3 0 . 0 3 6 . 0
8 . 0 1 .5
37 .1% 27.8% 33.7% 31.6%
Total Automation 25.0 54.5 125.0 99.5 75.5 31.8%
Other Equipment United States Japan Europe Rest of World
2 3 . 0 2 0 . 3
5 . 5 0 . 8
3 2 . 4 3 2 . 7
7 . 9 2 . 3
5 2 . 5 5 4 . 3 1 3 . 6
4 . 8
4 4 . 0 5 1 . 0 1 5 . 5
7 , 2
3 8 . 1 3 3 . 2 1 4 . 6
5 .7
13.4% 13.1% 27.6% 63.4%
Total Other 49.6 75.3 125.2 117.7 91.6 16.4%
(Continued)
1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Summary Data by Category
#
Table 1 (Continued)
WORLDWIDE WAFER FAB EQUIPMEKT MARKET REGIONAL SHARES BY CATEGORY
(Millions of Dollars)
:al Wafer Fab Equipment United States Japan Europe Rest of World
1982
656.8 578.5 156.9 23.6
1983
925.3 910.4 226.3 64.8
1984
1,500.6 1,505.4 387.6 135t9
1985
1,258.3 1,435.5 441.7 205.8
1986
1,089.0 928.3 417.0 163.9
CAGR 1982-1986
13.5% 12.6% 27.7% 62.3%
Total Fab Equip. 1,415.8 2,126.8 3,529.5 3,341.3 2,598.2 16.4%
N/A = Not Applicable
Source: Dataquest August 1987 Ref: SUMMREG
SEMS Markets and Technology ® 1987 Dataquest Incorporated August
Wafer Fab Equipment—Summary Data by Category
Table 2
WORLDWIDE WAFER FAB ZQaiPtSESX MARKET COMPANY SHARES B7 CATEGORY
(Millions of Dollars)
•
World Fab Eguipment Market
Lithography
1982
1,415.8
1983
2,126.8
1984
3,529.5
1985
3,341.3
1986
2,598.2
CAGR 1982-1986
16.4%
Con tac t /P rox imi ty U.S. Companies Japanese Companies European Companies
Total Cont./Prox.
Projection Aligners U.S. Companies Japanese Companies European Companies
0 37.9 7.1
45.0
102.0 20.6
0
0 31.0 11.3
42.3
120.0 40.7
0
0 48.6 17.0
65.6
159.0 84.6
0
0 31.4 17.5
48.9
146.0 127.7
0
0 14.7 16.0
30.7
127.0 64.0
0
N/A (21.1%) 22.5%
(9.1%)
5.6% 32.8% N/A
Total Projection 122.6 160.7 243.6 273.7 191.0 11.7%
Steppers U.S. Companies Japanese Companies European Companies
Total Steppers
Direct-Write E-Beam U.S. Companies Japanese Companies European Companies
101.1 37.1 1.2
139.4
0 9.8 6.3
193.9 101.4
1.3
296.6
0 12.5 9.4
328.7 220.1
2.8
551.6
1.1 19.5 9.6
223.2 242.1
2.8
468.1
0 20.5 13.1
151.2 153.3 9.8
314.3
7.0 40.0 20.5
10.6% 42.6% 69.0%
22.5%
N/A 42.1% 34.3%
Total Direct-Write 16.1 21.9 30.2 33.6 67.5 43.1%
(Continued)
10 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Summary Data by Category
Table 2 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET COMPANY SHAKES BY CATEGORY
(Millions of Dollars)
Lithoaraphy (Continued)
Maskmaking E-Beam U.S. Companies Japanese Companies European Companies
Total Maskmaking
X-Ray U.S. Companies Japanese Companies European Companies
1982
21.1 12.2 4.1
37.4
0 0 0
1983
29.9 10.3
5.5
45.7
0 0 Q.
1984
49.3 8.0 3.9
61.2
0.8 0
lifi
1985
64.8 15.0
2,6
82.4
0.8 0
1.0
1986
36.0 21.0
0
57.0
0.8 0 0
CAGS 1982-1986
14.3% 14.5%
(100.0%)
11.1%
N/A N/A N/A
Total X-Ray 1.8 1.8 0.8 N/A
Total Lithography U.S. Companies Japanese Companies European Companies
224.2 117.6 18.7
343.8 195.9 27.5
538.9 380.8 34.3
434.8 436.7 37.0
322.0 293.0 46.3
9.5% 25.6% 25.4%
Total Lith, 360.5 567.2 954.0 908.5 661.3 16.4%
Automatic Photoresist Processing Equipment
U.S. Companies Japanese Companies European Companies
55.4 20.1
l.Q
60.7 38.2 1.5
114.7 67.4 3.0
93.3 69.3 3.1
81.0 57.2
5t3
10.0% 29.9% 51.7%
Total Track 76.5 100.4 185.1 165.7 143.5 17.0%
(Continued)
SEMS Markets and Technology 1987 Dataguest Incorporated August 11
Wafer Fab Equipment—Summary Data by Category
Table 2 (Continued)
HORLDHIDE HAFER FAB EQUIE ifEIilT MARKET COMPASY SHARES BT CATEGORY
(Millions of Dollars)
Dry Strip U.S. Companies Japanese Companies European Companies
1982
13.5 5.0 1.0
1983
23.0 8.9 2.0
1984
31.0 12.6 1.0
1985
22.6 13.2 1.0
1986
18.8 13.3
0
CAGR 1982-1986
8.6% 27.7%
(100.0%)
Total Dry Strip 19.5 33.9 44.6 36.8 32.1 13.3%
Dry Etch U.S. Companies Japanese Companies European Companies
62.7 30.5
0
122.4 53.3 9.4
207.6 96.4 10.3
196.3 93.1 8.9
171.9 57.4 6.8
28.7% 17.1% N/A
Total Dry Etch 93.2 185.1 314.3 298.3 236.1 26.2%
Deposition
CVD U.S. Companies 37.2 Japanese Companies 31.2 European Companies 23.2
64.5 46.5 39.0
113.9 65.8 46.1
122.4 58.2 44.1
98.1 42.9 44.3
27.4% 8.3% 17.6%
Total CVD 91.6 150.0 225.8 224.7 185.3 19.3%
PVD U.S. Companies 82.7 90.3 129.1 145.5 124.6 10.8% Japanese Companies 24.9 38.6 69.2 76.0 77.4 32.8% European Companies 23.2 25.8 37.9 46.5 43.1 16.7%
Total PVD 130.8 154.7 236.2 268.0 245.1 17.0%
Silicon Epitaxy U.S. Companies Japanese Companies European Companies
33.0 13.9
0
53.4 11.4
0
100.9 10.9
0
63.4 8.1 0
45.7 3.6 0
8.5% (28.7%)
N/A
Total Silicon Epi. 46.9 64.8 111.8 71.5 49.3 1.3%
(Continued)
12 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Summary Data by Category
Table 2 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET COMPANY SHARES BY CATEGORY
(Millions of Dollars)
Deposition (Continued)
Metalorganic CVD U.S. Companies Japanese Companies European Companies
1982
0 2.1 0.2
1983
0.3 4.8 2.4
1984
1.9 9.3 5.0
1985
6.9 10.5 7.5
1986
10.1 14.1 5,9
1982-1986
N/A 61.0%
133.1%
Total MOCVD 2.3 7.5 16.2 24.9 30.1 90.2%
Molecular Beam Epitaxy U.S. Companies 7.2 7.3 10.1 15.0 22.3 32.7% Japanese Companies 1.5 2.6 4.2 10.5 14.7 76.9% European Companies 13.4 26.6 32.9 34.9 37.0 28.9%
Total MBE 22.1 36.5 47.2 60.4 74.0 35.3%
Total Deposition U.S. Companies Japanese Companies European Companies
160.1 73.6 60.0
215.8 103.9 93.8
355.9 159.4 121.9
353.2 163.3 133.0
300.8 152.7 130.3
17.1% 20.0% 21.4%
Total Deposition 293.7 413.5 637.2 649.5 583.8 18.7%
Diffusion U.S. Companies Japanese Companies European Companies
49.8 47.0 8.4
48.1 57.6 15.9
101.8 85.0 12.4
108.7 91.6 11.9
84.7 69.9 11.0
14.2% 10.4% 7.0%
Total Diffusion 105.2 121.6 199.2 212.2 165.6 12.0%
Rapid Thermal Processing U.S. Companies Japanese Companies European Companies
2.2 0
0.1
3.6 0
0.3
8.2 1.6 0.4
11.1 2.3 0.4
12.4 3.3 0.7
54.1% N/A
62.7%
Total RTP 2.3 3.9 10.2 13.8 16.4 63.4%
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated August 13
Wafer Fab Equipment—Summary Data by Category
Table 2 (Continued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET C0MPAN7 SHARES B7 CATEGORT
(Millions of Dollars)
Total Implantation U.S. Companies Japanese Companies European Companies
Total Implantation
Subtotal Fab Equipment* U.S. Companies Japanese Companies European Companies
Subtotal
Wet Process All Companies
Ion Milling All Companies
1982
90.7 19.6 1,0
111.3
658.6 313.4 90.2
1,062.2
68.1
6.1
1993
132.0 37.8 4,0
173.8
949.4 495.6 154.4
1,599.4
95.1
6.3
1984
222.0 58.1 6,0
286.1
1,580.1 861.3 189.3
2,630.7
131.8
8.3
1985
222.7 82.9
o
305.6
1,442.7 952.4 195.3
2,590.4
104.7
6.5
19?6
92.0 37.3
0
129.3
1,083.6 684.1 200.4
1,968.1
82.7
6.8
CAGR 1982-1986
0.4% 17.5%
(100.0%)
3.8%
13.3% 21.6% 22.1%
16.7%
5.0%
2.8%
Process Control All Companies
Factory Automation All Companies
Other Equipment All Companies
204.8
2 5 . 0
4 9 . 6
2 9 6 . 2 5 0 8 . 5 4 2 2 . 5 3 7 3 . 5 16 .2%
5 4 . 5 1 2 5 . 0 9 9 . 5 7 5 . 5 31 .8%
Total Fab Equip. 1,415.8
75.3 125.2 117.7 91.6 16.6%
2,126.8 3,529.5 3,341.3 2,598.2 16.4%
*Subtotal Fab Equipment does not include Wet Process, Ion Milling, Process Control, Factory Automation, and Other Equipment categories because detailed company data are not complete for these categories. Aggregate data for these categories are added to provide a consistent total for the worldwide wafer fab equipment market.
N/A = Not Available
Source: Dataquest August 1987 Ref: SUMMSHR
14 © 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Import/Export Data
This section of the equipment data base consists of two summary tables that provide information on the import/export markets for the worldwide wafer fab equipment market. In botJi Table 1 and Table 2, the worldwide fab equipment market total in millions of dollars is listed at the beginning of the table and followed by the subtotal for fab equipment. The subto ta l fab equipment line item includes all of the front-end equipment categories for which detailed company analysis has been made and accounts for about 75 percent/ on average/ of all front-end equipment for the years 1982 through 1986. For some equipment categories (Wet Process/ Ion Milling/ Process Control/ Factory Automation, and Other Equipment)/ detailed company analysis is not yet complete. For these categories/ which account for the remaining 25 percent of wafer fab equipment/ a top-down estimate has been made and included in Tables 1 and 2 so that worldwide fab equipment sales are consistent across all tables.
The subtotal fab equipment market includes all of the major wafer fab equipment categories and accounts for the majority of all import/export activity in the worldwide fab equipment market. Relatively little import/export activity exists/ particularly between the United States and Japan/ for the remaining 25 percent of wafer fab equipment for which detailed company data are not yet complete. These equipment markets are largely supplied by domestic suppliers. Significant import/export analysis of the fab equipment market can be done/ however/ with the aid of the data in Tables 1 and 2.
Tables 1 and 2 provide data on the import/export activity for the aggregate wafer fab equipment market. In the future/ Dataquest will publish such tables for each of the major equipment categories. This analysis can now be made with the aid of the tables in the section entitled "Wafer Fab Equipment—Company Shares by Category/" although not conveniently. It is our intention to provide import/export tables and analysis at a later date/ rather than to hold up the initial publication of the equipment data base.
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Wafer Fab Equipment—Import/Export Data
4 4 3 . 7 1 0 . 5 3 5 . 2
6 2 0 . 1 2 0 . 4 5 5 . 1
9 6 7 . 3 7 5 . 8 7 6 . 9
8 1 8 . 6 7 9 . 2 7 3 . 1
6 7 0 . 0 7 5 . 2 7 4 . 8
10.9% 63.6% 20.7%
Table 1
HORUJWIDE WAFER FAB EQUIPMENT MARKET IMPORT DATA
(Millions of Dollars)
CAGR 1982 1983 1984 1985 1986 1982-1986
World Fab Equipment Market 1,415.8 2,126.8 3,529.5 3,341.3 2,598.2 16.4% Subtotal Fab Equip.* 1,062.2 1,599.4 2,630.7 2,590.4 1,968.1 16.7% Subtotal Percent 75.0% 75.2% 74.5% 77.5% 75.7%
Subtotal Fab Equipment
United States U.S. Co. Sales Japanese Co. Sales European Co. Sales
Total U.S. Market 489.4 695.6 1,120.0 970.9 820.0 13.8%
Japan U.S. Co. Sales Japanese Co. Sales European Co. Sales
Total Japan Market 436.8 682.6 1,106.7 1,100.8 696.8 12.4%
Europe U.S. Co. Sales Japanese Co. Sales European Co. Sales
Total Europe Market 118.5 172.7 299.6 353.1 322.4 28.4%
Rest of World U.S. Co. Sales Japanese Co. Sales European Co. Sales
Total ROW Market 17-5 48.5 104.4 165.6 128.9 64.7%
1 3 1 . 5 2 9 4 . 3
1 1 . 0
1 9 8 . 6 4 5 8 . 2
2 5 . 8
3 3 5 . 3 7 4 4 . 3
2 7 . 1
2 5 5 . 4 8 1 7 . 6
2 7 . 8
1 2 7 . 9 5 3 9 . 8
2 9 . 1
(0 .7%) 16.4% 27 .5%
6 9 . 6 6 . 9
4 2 . 0
1 0 0 . 7 1 0 . 7 6 1 . 3
2 0 4 . 5 1 8 . 7 7 6 . 4
2 3 9 . 5 3 0 . 2 8 3 . 4
1 9 6 . 0 3 9 . 5 8 6 . 9
29 .5% 54.7% 19.9%
1 3 . 8 1 .7 2 . 0
3 0 . 0 6 . 3
1 2 . 2
7 3 . 0 2 2 . 5
8,9
1 2 9 . 2 2 5 . 4 1 1 . 0
8 9 . 7 2 9 . 6
9 .6
59 .7% 104 .3%
48.0%
(Continued)
1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Import/Export Data
Table 1 (Continued)
WORIJ>HIDE WAFER FAB EQUIPMENT MARKET IMPORT DATA
(Millions of Dollars)
Subtotal Fab Equipment
Worldwide U.S. Co. Sales Japanese Co. Sales European Co. Sales
Subtotal Fab Equip.
Wet Process All Companies
Ion Milling All Companies
Process Control All Companies
Factory Automation All Companies
Other Equipment All Companies
Total Fab Equip.
1982
(Continued)
658.6 313.4 90.2
1,062.2
68.1
6.1
204.8
25.0
49.6
1,415.8
1
2
1-993
949.4 495.6 154.4
,599.4
95.1
6.3
296.2
54.5
75.3
,126.8
1984
1,580.1 861.3 189.3
2,630.7
131.8
8.3
508.5
125.0
125.2
3,529.5
19?5
1,442.7 952.4 195.3
2,590.4
104.7
6.5
422.5
99.5
117.7
3,341.3
1986
1,083.6 684.1 200.4
1,968.1
82.7
6.8
373.5
75.5
91.6
2,598.2
CAGR 1982-1986
13.3% 21.6% 22.1%
16.7%
5.0%
2.8%
16.2%
31.8%
16.6%
16.4%
^Subtotal Fab Equipment does not include Wet Process, Ion Milling, Process Control, Factory Automation, and Other Equipment categories, as detailed company data are not complete for these categories. Aggregate data for these categories are added to provide a consistent total for the worldwide wafer fab equipment market.
Source: Dataquest August 1987 Hef: EXIMSHK
SEMS Markets and Technology © 1987 Dataquest I nco rpo ra t ed August
Wafer Fab Equipment—Import/Export Data
Table 2
WORLDWIDE WAFER FAB EQUIPMENT MARKET EXPORT DATA
(Millions of Dollars)
1982
World Fab Equipment Market 1,415.8
Subtotal Fab Equip.* 1,062.2 Subtotal Percent 75.0%
1983
2,126.8 1,599.4
75.2'«b
1984
3,529.5 2,630.7
74.5%
1985
3,341.3 2,590.4
77.5%
1986
2,598.2 1,968.1
75.7%
CAGR 1982-1986
16.4% 16.7%
Subtotal Fab Equipment
U.S. Equipment Companies Sales in U.S. Sales in Japan Sales in Europe Sales in ROW
Total U.S. Cos.
Japanese Equip. Cos. Sales in U.S. Sales in Japan Sales in Europe Sales in ROW
443.7 131.5 69.6 13.8
658.6
10.5 294.3 6.9 1.7
620.1 198.6 100.7 30.0
949.4
20.4 458.2 10.7 6.3
967.3 335.3 204.5 73.0
1,580.1
75.8 744.3 18.7 22.5
818.6 255.4 239.5 129.2
1,442.1
79.2 817.6 30.2 25.4
670.0 127.9 196.0 89,7
1,083.6
75.2 539.8 39.5 29.6
10.9% (0.7%) 29.5% 59.7%
13.3%
63.6% 16.4% 54.7%
104.3%
Total Japan Cos. 313.4 495.6 861.3 952.4 684.1 21.6%
European Equip. Companies Sales in U.S. Sales in Japan Sales in Europe Sales in ROW
35.2 11.0 42.0 2.0
55.1 25.8 61.3 12.2
76.9 27.1 76.4
8.9
73.1 27.8 83.4 11.0
74.8 29.1 86.9 9,6
20.7% 27.5% 19.9% 48.0%
Total Eur. Cos. 90.2 154.4 189.3 195.3 200.4 22.1%
Subtotal Fab Equip. 1,062.2 1,599.4 2,630.7 2,590.4 1,968.1 16.7%
(Continued)
© 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Import/Export Data
Table 2 (Contiiiued)
WORLDWIDE WAFER FAB EQUIPMENT MARKET EXPORT DATA
(Millions of Dollars)
Wet Process All Companies
Ion Milling All Companies
Process Control All Companies
Factory Automation All Companies
Otiher Equipment All Companies
Total Fab Equip.
CAGR 1982 1983 1984 1985 1986 1982-1986
68.1 95.1 131.8 104.7 82.7 5.0%
6.1 6.3 8.3 6.5 6.8 2.8%
2 0 4 . 8 2 9 6 . 2 5 0 8 . 5 4 2 2 . 5 3 7 3 . 5 16 .2%
2 5 . 0 5 4 . 5 1 2 5 . 0 9 9 . 5 7 5 . 5 31 .8%
49.6 75.3 125.2 117.7 91.6 16.5%
1,415.8 2,126.8 3,529.5 3,341.3 2,598.2 16.4%
*Subtotal Fab Equipment does not include Wet Process, Ion Milling, Process Control, Factory Automation, and Other Equipment categories, as detailed company data are not complete for these categories. Aggregate data for these categories are added to provide a consistent total for the worldwide wafer fab equipment market.
Source: Dataquest August 1987 Ref: EXIMSHR
SEMS Markets and Technology 1987 Dataquest Incorporated August
Wafer Fab Equipment—Import/Export Data
(Page intentionally left blank)
1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
This section of the eguipment data base contains detailed company market share data by region for the major front-end eguipment categories as shown in Tables 1 through 42. All of t:he companies that participate in an eguipment segment are listed for each region, regardless of whether or not they have sales in a particular region. Altihough this approach results in a large number, of zeros in the tables, it also indicates that Dataguest has not recorded any sales for the company in that region. We believe that this format gives more positive information than eliminating a company with no sales in a given region.
At the beginning of each table, the total world market for a particular eguipment category is presented. This total is the same for each category as the total listed in Tables 1 and 2 in the service section entitled "Wafer Fab Eguipment—Summary Data by Category." Thus, all tables are completely consistent as one proceeds from t:he summary tables to the detailed tables presented here in this section.
SEMS Markets and Technology ® 1987 Dataguest Incorporated August
Wafer Fab Equipment—Company Shares by Category
Table 1
TOTAL LITHOGRAPHY COMPANY SHARES HOSLDHIDE
(Millions of Dollars)
1982 1983 1984 1985 CAGR
1986 1982-1986
World Lithography Market 360.5 567.2 954.0 908.5 6 6 1 . 3 16 .4%
Contact/Proximity Canon Karl Suss
Total Cont./Prox.
Projection Aligners Canon Perkin-Elmer
37.9 7.1
45.0
20.6 102.0
31.0 11.3
42.3
40.7 120.0
48.6 17 ,0
65.6
84.6 159.0
31.4 17.5
48.9
127.7 146.0
14.7 16.0
30.7
64.0 127.0
(9.1%)
Total Projection 122.6 160.7 243.6 273.7 191.0 11.7%
Steppers ASET ASM Lithography Canon Eaton GCA Hitachi Perkin-Elmer Nikon Ultratech
Total Steppers
Direct-Write E-Beain ASM Lithography Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Direct-Write
18.1 1.2 0
7.4 45.8 8.2 17.2 28.9 12.6
139.4
0 6.3 0
9.8 0 0 0
16.1
17.1 1.3 2.4 23.3 111.3 17.1 8.9 81.9 23.3
296.6
1.8 7.6 0
12.5 0 0 0
21.9
10.7 2.8 12.6 32.0 201.2 14.5 21.8 193.0 63.0
551.6
1.8 7.8 5.0 14.5
0 0
1.1
30.2
8.4 2.8 38.8 23.9 118.0 17.4 22.2 185.9 50.7
468.1
3.8 9.3 3.0 17.5
0 0 0
33.6
11.8 9.8 60.3 2.1 71.4 8.5 27.0 84.5 38.9
314.3
6.0 14.5 10.5 29.5 7.0 0 0
67.5
22.5%
43.1%
(Continued)
© 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 1 (Cont:inued)
TOTAL LITHOGRAPH!' C0MPAM7 SHAKES WORLimiDE
(Millions of Dollars)
Maskmaking E-Beam ASM Litihography Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Maskmaking
X-Ray Karl Suss Micronix
Total X-Ray
Total Lithography
19?2
1.7 2.4 0
4.2 16.8 8.0 4.3
37.4
0 0
0
360.5
1983
1.8 3.7 0
6.3 25.3 4.0
4,e
45.7
0 0
0
567.2
1984
0 3.9 0
5.5 47.5 2.5 1,8
61.2
1.0 0,8
1.8
954.0
1985
0 2.6 6.0 6.5 64.8 2.5 0
82.4
1.0 0.8
1.8
908.5
1986
0 0
10.5 10.5 36.0
0
o 57.0
0 0.8
0.8
661.3
CAGR 1982-1986
11.1%
N/A
16.4%
N/A = Not Applicable
Source; Dataquest August 1987 Sef: LITHSHR
SEMS Markets and Technology 1987 Dataquest Incorporated August
Wafer Fab Equipment—Company Shares by Category
Table 2
CONTACT/PROXIMITY COMPAMY SHARES REGIONAL
(Millions of Dollars)
World Cont./Proz. Market
United States Canon Karl Suss
1982
45.0
7.5 3.5
1983
42.3
10.0 5.5
1994
65.6
15.6 8.1
19?5
48.9
7.8
7,9
1986
30.7
5.6 5.5
CAGR 1982-1986
(9.1%)
Total United States 11.0 15.5 23.7 15.6 11.1 0.2%.
Japan Canon Karl Suss
Total Japan
Europe Canon Karl Suss
Total Europe
Rest of World Canon Karl Suss
24.2 1.4
25.6
5.0 1.2
6.2
1.2 1.0
15.4 2.1
17.5
5.0
lt9
6.9
0.6
1.8
22.9 2.2
25.1
6.3
2.9
9.2
3.8 3t8
15.8 3.3
19.1
3.9 3.2
7.1
3.9 3,2
4.5 3.9
8.4
2.6 3t4
6.0
2.0 3.2
(24.3%)
(0.8%)
Total Rest of World 2.2 2.4 7.6 7.1 5.2 24.0%
Worldwide Canon Karl Suss
37.9 7.1
31.0 11.3
48.6 17.0
31.4 17.5
14.7 16.0
Total Worldwide 45.0 42.3 65.6 48.9 30.7 (9.1%)
Source: Dataguest August 1987 Ref: CONTSHR
1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 3
PROJECTION ALIGNER COMPIiSY SHARES REGIONAL
(Millions of Dollars)
World Projection Market
United States Canon Perkin-Elmer
Total United States
Japan Canon Perkin-Elmer
Total Japan
Europe Canon Perkin-Elmer
Total Europe
Rest of World Canon Perkin-Elmer
Total Rest of World
Worldwide Canon Perkin-Elmer
19?2
122.6
0 72.0
72.0
19.1 10.0
29.1
1.5 15.0
16.5
0 5.0
5.0
20.6 102.0
1983
160.7
0 84.0
84.0
35.8 12.0
47.8
4.4 I8t0
22.4
0.5 6.0
6.5
40.7 120.0
1984
243.6
10.0 111,0
121.0
62.1 16.0
78.1
11.0 24-0
35.0
1.5 8.Q
9.5
84.6 159tO
1985
273.7
22.0 102.0
124.0
90.3 15.0
105.3
9.9 22.0
31.9
5.5 7.0
12.5
127.7 146.0
1986
191.0
13.6 89.0
102.6
40.2 13.0
53.2
6.4 19.0
25.4
3.8 6.0
9.8
64.0 127.0
CAGR 1982-1986
11.7%
9.3%
16.3%
11.4%
18.3%
Total Worldwide 122.6 160.7 243.6 273.7 191.0 11.7%
N/A = Not Applicable
Source: Dataquest August 1987 Ref: PROJSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August
Wafer Fab Equipment—Company Shares by Category
Table 4
World Stepper Market
United States ASET ASM Lithography Canon Eaton GCA Hitachi Perkin-Elmer Nikon Ultratech
STEPPER COMPMfY BE6I0NAL
SHARES
( M i l l i o n s o f D o l l a r s )
1982
1 3 9 . 4
1 5 . 4 0 0
5 .4 2 3 . 2
0 1 4 . 2
0 1 2 . 3
1983
2 9 6 . 6
1 7 . 1 0 0
9 . 2 5 9 . 1
0 1 3 . 5
1.3 2 1 . 6
1994
5 5 1 . 6
1 0 . 7 0 . 7
0 1 1 . 9 9 1 . 2
0 1 4 . 2 3 3 . 1 5 3 . 1
1985
4 6 8 . 1
7 . 6 2 . 1 6 . 3 9 . 7
4 2 . 1 0
1 6 . 4 2 0 . 9 3 2 . 4
1986
3 1 4 . 3
1 1 . 8 6 . 1
2 1 . 6 2 . 1
4 6 . 4 0
2 3 . 1 1 3 . 0 2 7 . 4
CAGH 1982-1986
22 .5%
Total United States 70.5 121.8 214.9 137.5 151.5 21.1%
Japan ASET ASM Lithography Canon Eaton GCA Hitachi Perkin-Elmer Nikon Ultratech
0 . 7 0 0
2 . 0 2 0 . 9
8 .2 0 . 8
2 8 . 9 0 . 3
0 0
2 . 4 1 0 . 6 4 2 . 6 1 7 . 1
0 . 9 8 0 . 6
1.0
0 0
1 2 . 6 1 8 . 6 8 4 . 9 1 3 . 1
0 1 5 3 . 0
0
0 0
2 5 . 3 1 2 . 7 2 9 . 5 1 6 . 7
0 1 5 6 . 6
1.6
0 0
1 8 . 0 0
6 . 4 8 . 5
0 5 8 . 5
6 . 7
Total Japan 61.8 155.2 282.2 242.4 98.1 12.2%
Europe ASET ASM Lithography Canon Eaton GCA Hitachi
0 ,3 0 .4 .5 0
16
0 ,1 0 0 ,7 0
0. 0. 7. 1.
28.
3 15
16
0 ,7 ,3 0 ,7 0
(Continued)
1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 4 (Continued)
STEPPER C(»IPAN7 SHARES REGIONAL
(Millions of Dollars)
i M 2 1993 1984 1985 1986 GAGS
1982-1986
Europe (Continued) Perkin-Elmer Nikon Ultratech
2.2 0 0
4.5 0
JLLI
7.6 0
_ § ^
5.8 1.4 11-5
0 3.2 1.6
Total Europe
Rest of World ASET ASM Lithography Canon Eaton GCA Hitachi Perkin-Elmer Nikon Ultratech
6.4 12.4 32.0 57.0 40.5 58.6%.
0 . 7 0 0 0 0 0 0 0 0
0 0 0
2 . 1 5 . 1
0 0 0 0
0 0 0
1 . 5 8 . 4 1.4
0 6 . 9 4 , 3
0 0 0 0
1 8 . 3 0 . 7
0 7 . 0 5 .2
0 0
5 . 4 0
1 . 9 0
3 . 9 9 . 8 3 , 2
Total Rest of World 0.7 7.2 22.5 31.2 24.2 142.5%
Worldwide ASET ASM Lithography Canon Eaton GCA Hitachi Perkin-Elmer Nikon Ultratech
1 8 . 1 1 . 2
0 7 . 4
4 5 . 8 8 .2
1 7 . 2 2 8 . 9 1 2 . 6
1 7 . 1 1 . 3 2 . 4
2 3 . 3 1 1 1 . 3
1 7 . 1 1 8 . 9 8 1 . 9 2 3 . 3
1 0 . 7 2 . 8
1 2 . 6 3 2 . 0
2 0 1 . 2 1 4 . 5 2 1 . 8
1 9 3 . 0 6 3 . 0
8 . 4 2 . 8
3 8 . 8 2 3 . 9
1 1 8 . 0 1 7 . 4 2 2 . 2
1 8 5 . 9 5 0 . 7
1 1 . 8 9 . 8
6 0 . 3 2 . 1
7 1 . 4 8 . 5
2 7 . 0 8 4 . 5 3 8 . 9
Total Worldwide 139.4 296.6 551.6 468.1 314.3 22.5%
Source: Dataguest August 1987 Ref: STEPSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August
Wafer Fab Equipment—Company Shares by Category
Table 5
DIRECT-WRITE E-BEAM COMPANY SHARES REGIONAL
(Millions of Dollars)
World Direct-Write Market
United States ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total United States
Japan ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Japan
Europe ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Europe
1982
16.1
0 2.5 0
2.0 0 0 0
4.5
0 0 0
7.8 0 0 0
7.8
0 3.8 0 0 0 0 0
3.8
1983
21.9
0 3.8 0
1.5 0 0 0
5.3
0 0 0
8.5 0 0 0
8.5
1.8 3.8 0 0 0 0 0
5.6
1984
30.2
0 3.9 0
5.0 0 0 0
8.9
0 0
5.0 7.0 0 0 0
12.0
1.8 3.9 0 0 0 0
Itl
6.8
1985
33.6
3.8 2.6 0
7.0 0 0 0
13.4
0 0
3.0 8.0 0 0 0
11.0
0 6.7 0
2.5 0 0 0
9.2
1986
67.5
4.0 10.0
0 10.0 7.0 o o
31.0
0 0
10.5 17.5
o 0 o
28.0
2.0 4.5 0
2.0 o o 0
8.5
CAGR 1982-1986
43.1%
62.0%
37.6%
22.3%
(Continued)
1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 5 (Continued)
DIBECT-HRITE E-BEAM COMPMSO: SHARES REGIONAL
(Millions of Dollars)
Rest of World ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
1982
0 0 0 0 0 0 0
1983
0 0 0
2.5 0 0 0
1984
0 0 0
2.5 0 0 0
1985
0 0 0 0 0 0 0
1986
0 0 0 0 0 0 0
CAGR 1982-1986
Total Rest of World 2.5 2.5 N/A
Worldwide ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
0 6.3 0
9.8 0 0 0
1.8 7.6 0
12.5 0 0 0
1.8 7.8 5.0 14.5
0 0
1.1
3.8 9.3 3.0 17.5
0 0 0
6.0 14.5 10.5 29.5 7.0 0 0
Total Worldwide 16.1 21.9 30.2 33.6 67.5 43.1%
N/A = Not Applicable
Source: Dataguest August 1987 Ref: DWEBSHR
SEMS Markets and Technology © 1987 Dataguest Incorporated August
Wafer Fab Equipment—Company Shares by Category
Table 6
MASKMAKIN6 E-BEAM COMPANY SHARES REGIONAL
(Millions of Dollars)
World Maskmaking Market
United States ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
1982
37.4
0 1.2 0 0
8.4 P
2.0
1983
45.7
0 1.3 0
2.5 16.1
0 4te
1984
61.2
0 1.3 0 0
17.5 0
1.8
1985
82.4
0 1.3 0 0
37.8 0 0
1986
57.0
0 0 0 0
27.0 0 0
CAGR 1982-1986
11.1%
Total United States
Japan ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
11.6 24.5 20.6 39.1 27.0
0 0 0
4.2 8.4 8.0 0
0 0 0
3.8 4.6 4.0 0
0 0 0
5.5 25.0 2.5 0
0 0
6.0 6.5 21.6 2.5 0
0 0
10.5 10.5 9.0 0 0
23.5%
Total Japan 20.6 12.4 33.0 36.6 30.0 9.9%
Europe ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Europe
1.7 1.2 0 0 0 0
2.3
5.2
1.8 2.4 0 0
4.6 0 q
8.8
0 2.6 0 0
5.0 0 0
7.6
0 1.3 0 0
2.7 0 0
4.0
0 0 0 0 0 0 0
0
• . *
(100.0%)
(Continued)
10 © 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 6 (Continued)
MASKMAKIH6 E-BEAM COMPANY SHARES REGIONAL
(Millions of Dollars)
Rest of World ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Rest
Worldwide
of World
ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
1982
0 0 0 0 0 0 0
0
1.7 2.4 0
4.2 16.8 8.0 4.3
19?3
0 0 0 0 0 0 0
0
1.8 3.7 0
6.3 25.3 4.0 4.6
19?4
3
5 47 2 1
0 0 0 0 0 0 Q
0
0 .9 0 .5 .5 .5 .8
1995
0 0 0 0
2.7 0 0
2.7
0 2.6 6.0 6.5 64.8 2.5 0
1986
10 10 36
0 0 0 0 0 0 0
0
0 0 .5 .5 .0 0 0
CAGR 1932-1986
N/A
Total Worldwide 37.4 45.7 61.2 82.4 57.0 11.1%
N/A = Not Applicable
Source: Dataguest August 1987 Ref: MMEBSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August 11
Wafer Fab Equipment—Company Shares by Category
Table 7
Wo r ld E-Beam Market
United States ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total United States
Japan ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Japan
Europe ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Europe
TOTAL E-
(Mill
1982
53.5
0 3.7
0 2.0 8.4
0
2t0
16.1
0 0 0
12.0 8.4 8.0
0
28.4
1.7 5.0
0-0 0 0
2.3
9.0
BEAM COMPANY SHARES REGIONAL
ions of Dollars)
1993
67.6
0 5.1
0 4.0 16.1
0 4.6
29.8
0 0 0
12.3 4.6 4.0
0
20.9
3.6 6.2 -
0 0
4.6 0 0
14.4
1984
91.4
0 5.2
0 5.0
17.5 0
1,8
29.5
0 0
5.0 12.5 25.0 2.5
0
45.0
1.8 6.5
0 0
5.0 0
1.1
14.4
1985
116.0
3.8 3.9
0 7.0
37.8 0 0
52.5
0 0
9.0 14.5 21.6 2.5
0
47.6
0 8.0
0 2.5 2.7
0 0
13.2
1986
124.5
4.0 10.0
0 10.0 34.0
0 0
58.0
0 0
21.0 28.0 9.0
0
0
58.0
2.0 4.5
0 2.0
0 0 0
8.5
CAGR 1982-1986
23.5%
37.8%.
19.5%
(1.4%)
(Continued)
12 © 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 7 (Continued)
TOTAI. E-BEAM CCMPANY SHARES REGIONAL
(Millions of Dollars)
Rest of World ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
Total Rest
Worldwide
of World
ASM Lith. (Philips) Cambridge Hitachi JEOL Perkin-Elmer Toshiba Varian
1982
0 0 0 0 0 0 Q
0
1.7 8.7 0
14.0 16.8 8.0 4,3
1983
0 o o
2.5 0 0 0
2.5
3.6 11.3
0 18.8 25.3 4.0 4.6
1984
0 0 0
2.5 0 0 0
2.5
1.8 11.7 5.0 20.0 47.5 2.5 2,9
1985
o o o o
2.7 o o
2.7
3.8 11.9 9.0 24.0 64.8 2.5 0
1986
o o o o o o o
o
6.0 14.5 21.0 40.0 43.0
o o
1982-1986
N/A
Total Worldwide 53.5 6 7 . 6 91.4 116.0 124.5 23.5%
N/A = Not Applicable
Source: Dataguest August 1987 Ref: TEBSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August 13
Wafer Fab Equipment—Company Shares by Category
Table 8
X-RAY ALIGNER COMPANY SHARES REGIONAL
(Millions of Dollars)
World X-Ray Market
United States Hampshire Instruments Micronix Perkin-Elmer Karl Suss
Total United States
Japan Hampshire Instruments Micronix Perkin-Elmer Karl Suss
Total Japan
Europe Hampshire Instruments Micronix Perkin-Elmer Kark Suss
Total Europe
Rest of World Hampshire Instruments Micronix Perkin-Elmer Karl Suss
Total Rest of World
Worldwide Hampshire Instruments Micronix Perkin-Elmer Karl Suss
Total Worldwide
1982
0
0 0 0 0
0
0 0 0 0
0
0 0 0 0
0
0 0 0 0
0
0 0 0 0
0
1983
0
0 0 0 0
0
0 0 0 0
0
0 0 0 0
0
0 0 0 0
0
0 0 0 0
0
1984
1.8
0 0 0 0
0
0 0.8 0 0
0.8
0 0 0
1.0
1.0
0 0 0 0
0
0 0.8 0
1.0
1.8
1985
1.8
0 0 0 0
0
0 0.8 0 0
0.8
0 0 0
1.0
1.0
0 0 0 0
0
0 0.8 0
1.0
1.8
1986
0.8
0 0 0 0
0
0 0.8 0 0
0.8
0 0 0 0
0
0 0 0 0
0
0 0.8 0 0
0.8
CAGR 1982-1986
N/A
N/A
N/A
N/A
N/A
N/A
N/A " Not Applicable
Source: Dataquest August 1987 Ref: XRAYSHR
14 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 9
Anrcftaaic PHOTORESIST PROCESSIHG sgniE fEiiiT (TSACK) CCXSPMSTI SHAKES
REGIONAL (Millions of Dollars)
World Track Market
United States Canon Convac Dainippon Screen Eaton GCA Machine Technology Reid-Ashman (Solitec) Semiconductor Systems Silicon Valley Group Tazmo Tokyo Electron Ltd. Veeco
1982
76.5
0 0 0
9.0 9.0 7.0 1.4 0.4 8.1 0 0
4.8
1983
100.4
0 0.1 0.1 6.0 10.8 7.1 2.6 3.0 13.9
0 0
2.4
1984
185.1
0 0.3 0.2 7.2 14.0 18.4 4.4 13.0 23.6
0 0
3.8
1985
165.7
0 1.0 1.7 6.0 6.0 15.3 4.9 7.9 21.3
0 0.2 4.2
1986
143.5
0 1.5 0.2 5.4 6.5 11.3 6.3 7.9 15.5 0.7 0.9 2.9
CAGR 1982-1986
17.0%
Total United States 39.7 46.0 84.9 68.5 59.1 10.5%
Japan Canon Convac Dainippon Screen Eaton GCA Machine Technology Reid-Ashman (Solitec) Semiconductor Systems Silicon Valley Group Tazmo Tokyo Electron Ltd. Veeco
0 0
12.4 0
7.2 0.5 0 0 0
1.0 6.7 Q
0 0
19.3 0
4.3 0.3 0 0 0
1.3 17.2
0
0 0
38.4 0
2.6 0.1 0 0 0
1.1 26.2
0
0 0
38.7 0
1.0 0.1 0 0 0
0.6 22.7
0
0.2 0
27.4 0
0.8 0.1 0 0 0
0.6 21.4
0
Total Japan 27.8 42.4 68.4 63.1 50.5 16.1%
(Continued)
SEMS Markets and Technology ® 1987 Dataquest Incorporated August 15
Wafer Fab Equipment—Company Shares by Category
Table 9 (Continued)
AUTOMATIC PHOTORESIST PROCESSING EQUIPMENT (TRACK) COMPAN7 SHARES REGIONAL
(Millions of Dollars)
Europe Canon Convac Dainippon Screen Eaton OCA Machine Technology Reid-Ashman (Solitec) Semiconductor Systems Silicon Valley Group Xazmo Tokyo Electron Ltd. Veeco
Total Europe
Rest of World Canon Convac Dainippon Screen Eaton GCA Machine Technology Reid-Ashman (Solitec) Semiconductor Systems Silicon Valley Group Xazmo Tokyo Electron Ltd. Veeco
1982
0 1.0 0
3.0 1.8 0.2 0.1 0
1.5 • 0 0 0
7.6
0 0 0 0 0 0 0 0
1.4 0 0 0
1983
0 1.4 0
4.0 2.9 0.1 0.1 0
2.2 0 0 0
10.7
0 0
0.3
o o o o 0
1.0
o o 0
1984
o 2.7
o 6.1 8.9 1.7 O.l o
4.0
o o o
23.5
o o
1.5 1.2 o
o.l o o
5.5
o o o
1985
o 2.1
o 5.0 5.0 2.3
o.l 0.9 5.2
o l.O
o
21.6
o o
3.8 l.O 3.0 o.l o o
4.0
o 0.6
o
1986
0.3 3.8 1.2 6.1 4.0 1.3 0.2 0.9 7.0
o 1.5
o
26.3
o o
i.o 0.5 l.O 0.2
o o
3.1
o 1.8
o
CAGR 1982-1986
36.4<
Total Rest of World 1.4 1.3 8.3 12.5 7.6 52.6%
(Continued)
16 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 9 (Contiinued)
AUTOMATIC PHOTORESIST PROCESSING EQUIPMENT (TRACK) COMPANY SHAKES REGIONAL
(Millions of Dollars)
Worldwide Canon Convac Daiuippon Screen Eaton GCA Machine Technology Reid-Ashman (Solitec) Semiconductor Systems Silicon Valley Group Tazmo Tokyo Electron Ltd. Veeco
1982
0 1.0 12.4 12.0 18.0 7.7 1.5 0.4 11.0 l.O 6.7 4.8
1983
o 1.5 19.7 10.0 18.0 7.5 2.7 3.0 17.1 1.3 17.2 2.4
1984
o 3.0 40.1 14.5 25.5 20.3 4.5 13.0 33.1 1.1 26.2 3.8
1985
o 3.1 44.2 12.0 15.0 17.8 5.0 8.8 30.5 0.6 24.5 4.2
1986
0.5 5.3 29.8 12.0 12.3 12.9 6.5 8.8 25.6 1.3 25.6 2.9
CAGR 1982-1986
Total Worldwide 76.5 100.4 185.1 165.7 143.5 n.0%
Source; Dataquest August 1987 Re£: TRACKSHR
SEMS Markets and Technology ® 1987 Dataquest Incorporated August 17
Wafer Fab Equipment—Company Shares by Category
Table 10
TOTAL ETCH AND CLEAN COMPANY SHAKES WORLDWIDE
(Millions of Dollars)
World Etch & Clean Market
Wet Process
Dry Strip Alean Tech Branson/IPC Drytek E.T. Electrotech Emergent Technologies Gasonics Hohkoh Sangyo LFE Machine Technology Matrix Plasma Systems Plasma-Therm Psi Star Tegal Tokyo Ohka Yawata
1982
186.9
68.1
0 7.0 0
1.0 0 0 0
2.0 0 0
2.0 0 0
4.5 3.0 0
19?3
320.4
95.1
0 11.0 2.0 2.0 0 0 0
4.0 0 0
3.4 0 0
6.0 5.5 0
1984
499.0
131.8
0 17.0 3.0 1.0 0 0
0.4 3.0 0 0
4.2 0 0
8.0 8.0 0
19?5
446.3
104.7
0 14.3 3.0 1.0 0 0
1.1 2.0 0.3 0
3.2 0 0
3.0 8.9 0
1986
357.7
82.7
0.9 9.6 2.0 0 0
0.7 1.0 1.0 2.0 1.5 3.3 0 0
2.0 8.1 0
CAGR 1982-1986
17.6%
5.0%
Total Dry Strip 19.5 33.9 44.6 36.8 32.1 13.3%
Dry Etch Anelva Applied Materials Balzers BIPC Branson/IPC Canon Drytek Ergo Plasma Systems E.T. Electrotech GCA
13.3 31.7
0 1.8 0 0
7.0 0 0 0
19.0 46.8
0 1.9 13.0
0 15.0
0 9.4 0
38.9 69.0
0 2.8 6.0 0
24.0 0
10.3 0
39.5 69.6
0 1.9 3.0 0
23.0 0
8.9 1.2
16.2 73.4
0 1.2 3.0 0
16.0 0
6.8 2.8
(Continued)
18 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 10 (Continued)
TOTAL ETCH AND CLEAN COMPANT SHAKES WORLDWIDE
(Millions of Dollars)
Dry Etch (Continued)
Hitachi Kokusai Lam Research Materials Research Perkin-Elmer Plasma Systems Plasma-Therm Ramco Sumitomo Metals Tegal TEL/Lam Tokuda Tokyo Ohka Ulvac Varian/Zylin
Total Dry Etch
Ion Milling
Total Etch & Clean
1982
0.6 2.0 1.0 0
1.0 0.6 9.0 0 0
13.0 1.0 3.5 6.4 1.3 0
93.2
6.1
186.9
1983
1.5 7.3 8.0 0
6.6 1.3 13.0 2.1 0
17.0 4.5 6.3 7.4 2.0 3.0
185.1
6.3
320.4
1984
4.9 11.5 28.0
0 15.6 1.5 12.0 3.0 0
38.0 11.0 8.7 8.9 5.2 15.0
314.3
8.3
499.0
1985
3.6 10.4 34.0
0 19.5 1.5 13.0 3.0 0
25.0 11.0 9.6 7.6 5.0 8.0
298.3
6.5
446.3
1986
10.8 3.3 26.0
0 9.2 1.7 12.5 2.0 2.4 25.0 5.4 4.3 7.2 2.9 4,0
236.1
6.8
357.7
CAGR 1982-1986
26.2%
2.8%
17.6%
Source: Dataguest August 1987 Ref: : TETCHSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August 19
Wafer Fab Equipment—Company Shares by Category
Table 11
DRY STRIP COMPANY SHARES UNITED STATES AND JAPAN (Millions of Dollars)
World Dry Strip Market
United States Alcan Tech Branson/IPC DryteIi E.T. Electrotech Emergent Technologies Gasonics HohItoh Sangyo LFE Machine Technology Matrix Plasma Systems Plasma-Therm Psi Star Tegal Tokyo Ohka Yawata
Total United States
Japan Alcan Tech Branson/lPC Drytek E.T. Electrotech Emergent Technologies Gasonics Hohkoh Sangyo LFE Machine Technology Matrix Plasma Systems Plasma-Therm Psi Star Tegal Tokyo Ohka Yawata
Total Japan
1982
19.5
0 3.0
0 0 0 0 0
2.0 0 0 0 0 0
4.0 0 0
9.0
0 2.0
0 0 0 0 0 0 0 0
2.0 0 0 0
3.0 0
7.0
1983
33.9
0 6.0 2.0 0 0 0 0
4.0 0 0 0 0 0
5.0 0 0
17.0
0 2.0 0 0 0 0 0 0 0 0
3.4 0 0 0
5.5 0
10.9
1984
44.6
0 10.0 3.0 0 0 0 0
3.0 0 0 0 0 0
6.0 0 0
22.0
0 3.0 0 0 0 0
0.4 0 0 0
4.2 0 0 0
8.0 0
15.6
1985
36.6
0 7.5 2.0 0 0 0 0
2.0 0.3 0 0 0 0
2.0 0 0
13.8
0 1.8 0 0 0 0
1.1 0 0 0
3.2 0 0 0
8.9 0
15.0
1986
32.1
0 5.0 1.0 0 0
0.7 0
1.0 2.0 1.5 0 0 0
2.0 0 0
13.2
0.9 0.6 0 0 0 0
1.0 0 0 0
3.3 0 0 0
8.1 0
13.9
CAGR 1982-1986
13.3%
10.0%
18.7%
Source: Dataquest August 1987 Ref: OSTRPSHR
20 © 1987 Dataquest I nco rpo r a t ed August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
T a b l e 12
DRY STRIP CGMPAinr SHARES EDROPE AND ROW
( M i l l i o n s oC D o l l a r s )
World Dry Strip Market
Europe Alcan Tech Branson/IPC Drytek E.T. Electrotech Emergent Technologies Gasonics Hohkoh Sangyo LFE Machine Technology Matrix Plasma Systems Plasma-Tlierra Psi Star Tegal Tokyo Ohka Yawata
Total Europe
Rest of World Alcan Tech Branson/IPC Drytek E.T. Electrotech Emergent Technologies Gasonics Hohkoh Sangyo LFE Machine Technology Matrix Plasma Systems Plasma-Therm Psi Star Tegal Tokyo Ohka Yawata
1982
19
0
1
0
2
1
.5
0 .5 0 .0 0 0 0 0 0 0 0 0 0 .5 0 0
.0
0 .5 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1983
33
1
2
1
4
2
.9
0 .0 0 .0 0 0 0 0 0 0 0 0 0 .0 0
_0
.0
0 .0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1984
44
2
1
2
5
2
.6
0 .0 0 .0 0 0 0 0 0 0 0 0 0 .0 0 0
.0
0 .0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1985
36
3
1
1
5
2 1
.8
0 .0 0 .0 0 0 0 0 0 0 0 0 0 .0 0 0
.0
0 .0 .0 0 0 0 0 0 0 0 0 0 0 0 0 0
1986
32
3
3
1 1
.1
0 .0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
.0
0 .0 .0 0 0 0 0 0 0 0 0 0 0 0 0 0
CAGR 1982-1986
13.3%
•
10.7*
Total Rest of World 1.5 2.0 2.0 3.0 2.0 7.5%
Source: Dataquest August 1987 Ref: DSTRPSHR
SEMS Markets and Technology 1987 Dataguest Incorporated August 21
Wafer Fab Equipment—Company Shares by Category
Table 13
World Dry Strip Market
Worldwide Alean Tech Branson/IPC Drytek E.T. Electrotech Emergent Techno logies Gasonics Hohkoh Sangyo LEE Machine Technology Matrix Plasma Systems Plasma-Therm Psi Star Tegal Tokyo Ohka Yawata
DRY STRIP COMPANY WORLDWIDE
SHARES
(Millions of Dollars)
1982
19.5
0 7.0 0
1.0 P 0 0
2.0 0 0
2.0 0 0
4.5 3.0 0
1983
33.9
0 11.0 2.0 2.0 0 0 0
4.0 0 0
3.4 0 0
6.0 5.5 0
1984
44.6
0 17.0 3.0 1.0 0 0
0.4 3.0 0 0
4.2 0 0
8.0 8.0 0
1985
36.8
0 14.3 3.0 1.0 0 0
1.1 2.0 0.3 0
3.2 0 0
3.0 8.9 0
1986
32.1
0.9 9.6 2.0 0 0
0.7 1.0 1.0 2.0 1.5 3.3 0 0
2.0 8.1 0
CAGR 1982-1986
13.3%
Total Worldwide 19.5 33.9 44.6 36.8 32.1 13.3%
Source: Dataguest August 1987 Ref: DSTRPSHR
22 1987 Dataguest I nco rpo r a t ed August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 14
World Dry Etch Market
United States Anelva Applied Materials BIPC Branson/IPC Drytek Ergo Plasma Systems E.T. Electrotech GCA Hitachi Kokusai Lam Research Materials Research Perkin-Elmer Plasma Systems Plasma-Therm Ramco Sumitomo Metals Tegal TEL/Lam Tokuda Tokyo Ohka Ulvac Varian/Zylin
DSI ETCH CtXSPMTI SHARES UNITED STATES
(Millions of Dollars)
1992
93.2
0 19.0
0 0
7.0 0 0 - 0 0 0
1.0 0
1.0 o
6.0 o o
12.0 o
l.O o o 0
1993
195.1
2.0 28.0
o 10.0 13.0
o l.O o o
1.0 7.0 o
6.0 o
11.0 o o
15.0 o
2.0 o o
3,0
1994
314.3
3.0 45.0
o 4.0 22.0
o 4.0 o o
1.0 23.0
o 12.0
o 10.0
o o
24.0 o
3.0 o o
14.0
1995
299.3
4.0 44.0
o 2.0 20.0
o 3.0 0.4 o
1.0 25.0
o 11.0
o 9.0 o 0
16.0 o
3.0 o o
9,0
1986
236.1
o 35.0
o o
10.0 o
1.0 1.2 o o
16.0 o
6.0 o
9.5 o o
16.0 o o o o
4,0
CAGR 1982-1986
26.201s.
Total United States 47.0 99.0 165.0 145.4 97.7 20.1%
Source; Dataguest August 1987 Ref; DETCHSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August 23
Wafer Fab Equipment—Company Shares by Category
Table 15
World Dry Etch Market
Japan Anelva Applied Materials BIPC Branson/IPC Drytek Ergo Plasma Systems E.T. Electrotech GCA Hitachi Kokusai Lam Research Materials Research Perkin-Elmer Plasma Systems Plasma-Therm Ramco Sumitomo Metals Tegal TEL/Lam Tokuda Tokyo Ohka Ulvac Varian/Zylin
Total Japan
DRY ETCH COMPANY JAPAN
SHARES
(Millions of Dollars)
1982
93.2
13.3 12.7 1.8 0 0 0 0 0
0.6 2.0 0 0 0
0.6 . 0 0 0 0
1.0 2.5 6.4 1.3 0
42.2
19?3
185.1
16.0 16.8 1.9 o 0 0
3.4 0
1.5 6.3 0 0
0.6 1.3 0
2.1 0 0
4.5 4.3 7.4 2.0 0
68.1
1984
314.3
34.9 19.0 2.8 o o o
2.3 o
4.9 10.5
o o
0.6 1.5 o
3.0 o 0
11.0 5.7 8.9 5.2 0
110.3
1985
298.3
34.5 17.6 1.9 o o o
0.9 0.4 3.6 8.4 o o
2.5 1.5 o
3.0 o o
11.0 6.6 7.6 5.0 o
104.5
1986
236.1
16.2 20.4 1.2 o o o
1.8 0.8 10.8 3.3 o o
1.2 1.7 3.0 2.0 2.4 o
5.4 4.3 7.2 2.9 o
84.6
CAGR 1982-1986
26.2%
19.0%
Source: Dataguest August 1987 Ref: DETCHSHR
24 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 16
World Dry Etch Market
Europe Anelva Applied Materials BIPC Branson/IPC Drytek Ergo Plasma Systems E.T. Electrotech GCA Hitachi Kokusai Lam Research Materials Research Perkin-Elmer Plasma Systems PIasma-The rm Ramco Sumitomo Metals Tegal TEL/Lam Tokuda Tokyo Ohka Ulvac Varian/Zylin
Total Europe
DRY ETCH COMPANY EUROPE
SHARES
(Millions of Dollars)
1982
93.2
0 0 0 0 0 0 0 0 0 0 0 0 0 0
3.0 0 0
1.0 0 0 0 0 0
4.0
1983
185.1
0 2.0 0
3.0 1.0 0
5.0 o o o
l.O o 0 o
2.0 o o
2.0 o o q 0 0
16.0
1984
314.3
o 4.0 o
2.0 l.O o
4.0 o o o
2.0 o o o
2.0 o o
14.0 o o o o o
29.0
1985
298.3
o 5.0 o
1.0 1.0 o
5.0 0.4 o
1.0 3.0 o
3.0 o
4.0 o o
8.0 o o o o 0
31.4
1986
236.1
o 14.0
o 2.0 2.0 o
4.0 0.8 o o
5.0 o
2.0 o
1.0 o o
8.0 o o o o 0
38.8
CAGR 1982-1986
26.2%
76.5%
Source: Dataquest August 1987 Ref: DETCHSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 25
Wafer Fab Equipment—Company Shares by Category
Table 17
World Dry Etch Market
Rest of World Anelva Applied Materials BIPC Branson/IPC Drytek Ergo Plasma Systems E.T. Electrotech GCA Hitachi Kokusai Lam Research Materials Research Perkin-Elmer Plasma Systems Plasma-Therm Ramco Stimitomo Metals Tegal TEL/Lam Tokuda Tokyo Ohka Ulvac Varian/Zylin
RY ETCH REST
COMPANY SHARES OF WORLD
(Millions of Dollars)
1982
93.2
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1983
185.1
1.0 0 0 0
1.0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1934
314.3
1.0 1.0 0 o
l.O o o 0 o o
3.0 o
3.0 o o o o o o o 0 o
1.0
1985
298.3
i.o 3.0 o o
2.0 o o o o o
6.0 o
3.0 o
l.O o o
1.0 o o o o o
1986
236
4
1 4
5
1
.1
o .0 o .0 .0 o o o o o .0 o o o o o o .0 o o o o 0
CAGR 1982-1986
26.2%>
•
Total Rest of World 2.0 10.0 17.0 15.0 N/A
N/A = Not Available
Source: Dataguest August 1987 Ref: DETCHSHR
26 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 18
World Dry Etch Market
Worldwide Anelva Applied Materials BIPC Branson/IPC Drytek Ergo Plasma Systems E.T. Electrotech GCA Hitachi Kokusai Lam Research Materials Research Perkin-Elmer Plasma Systems Plasma-Therm Ramco Sumitomo Metals Tegal TEL/Lam Tokuda Tokyo Ohka Ulvac Varian/Zylin
DRY ETCH COMPAIilT WORIJ)HIDE
SHARES
( M i l l i o n s o f D o l l a r s )
1982
9 3 . 2
1 3 . 3 3 1 . 7
1 . 8 0
7 . 0 0 0 0
0 . 6 2 . 0 1.0
0 1.0 0 . 6 9 . 0
0 0
1 3 . 0 1.0 3 . 5 6 . 4 1.3
Q
19?3
1 8 5 . 1
1 9 . 0 4 6 . 8
1.9 1 3 . 0 1 5 . 0
0 9 . 4
0 1.5 7 . 3 8 . 0
0 6 . 6 1.3
1 3 . 0 2 . 1
0 1 7 . 0
4 . 5 6 . 3 7 . 4 2 . 0 3 . 0
19?4
3 1 4 . 3
3 8 . 9 6 9 . 0
2 . 8 6 . 0
2 4 . 0 0
1 0 . 3 0
4 . 9 1 1 . 5 2 8 . 0
0 1 5 . 6
1 .5 1 2 . 0
3 . 0 0
3 8 . 0 1 1 . 0
8 .7 8 . 9 5 . 2
1 5 . 0
1985
2 9 8 . 3
3 9 . 5 6 9 . 6
1.9 3 . 0
2 3 . 0 0
8 . 9 1.2 3 . 6
1 0 . 4 3 4 . 0
0 1 9 . 5
1 .5 1 3 . 0
3 . 0 0
2 5 . 0 1 1 . 0
9 . 6 7 . 6 5 . 0 8 . 0
1986
2 3 6 . 1
1 6 . 2 7 3 . 4
1.2 3 . 0
1 6 . 0 0
6 . 8 2 . 8
1 0 . 8 3 . 3
2 6 . 0 0
9 . 2 1.7
1 2 . 5 2 . 0 2 . 4
2 5 . 0 5 . 4 4 . 3 7 . 2 2 . 9 4 , 0
CAGR 1982 -1986
26.2%
Total Worldwide 93.2 1 8 5 . 1 3 1 4 . 3 2 9 8 . 3 2 3 6 . 1 26.2%
Source: Dataguest August 1987 Ref: DETCHSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August 27
Wafer Fab Equipment—Company Shares by Category
Table 19
CHEMICAL VAPOR DEPOSITION COMPANY SHARES UNITED STATES
(Millions Of Dollars)
^
World CVD Market
APCVD Amaya Applied Materials Hitachi Kokusai Koyo Lindberg Pacific Western Tempress Watkins-Johnson
Total APCVD
LPCVD Anicon ASM BTU/Bruce Focus Semiconductor Genus Kokusai Koyo Lindberg Novellus Pacific Western Process Technology Reid-Ashman (ACS) Spectrum CVD TEL/Thermco Tempress Thermco Tylan Varian Others
Total LPCVD
1982
91.6
0 1.3 0 0 0
0.6 1.9 ItS
5.6
0 2.9 0 0 0 0 0 0 0 0
5.0 0 0
2.8 2.8 0.8 0 0
14.3
1983
150.0
0 2.9 0 0 0
0.6 2.4 2.8
8.7
0.6 2.2 1.1 0
4.2 0 0 0 0
1.3 7.4 0 0
3.6 3.1 1.2 0 0
24.7
1984
225.8
0 3.1 0 0 0
0.7 2.5 3.3
9.6
9.4 '2.2 1.4 0
9.5 0 0 0
0.3 3.2 8.6 0
0.4 4.5 4.9 2.0 0 0
46.4
1985
224.7
0 1.8 0 0 0
0.6 1.4 3.4
7.2
6.7 1.3 2.6 0
10.0 0 0 0
0.4 4.0 10.8
0 0
5.5 7.4 0.6 0 0
49.3
1986
185.3
0 1.2 0 0 0
0.4 1.3 5.6
8.5
3.3 0.7 3.3 1.5 5.8 0 0 0
0.5 4.1 4.1 0.5 0
2.5 8.0 0.4 1.1 0
35.8
CAGR 1982-1986
19.3%
11.0%
25.8%
(Continued)
28 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 19 (Continued)
CHEMICAL VAPOR DEPOSITION C0MPAN7 SHARES UNITED STATES
(Millions of Dollars)
1982 1983 1£M IMS ISM. CAGR
1982-1986
PECVD Applied Materials ASM Enya E.T. Electrotech Japan Production Pacific Western Plasma-Therm Ulvac
1.5 8.8
0 0.8
0 4.6 1.8
Q
1.5 17.1
0 1.2
0 5.1 3.2
0
2. 18.
Total PECVD
Total U.S. CVD
17.5
37.4
28.1
61.5
32.8
88.8
22.6
79.1
18.2
62.5
1.0"<b
13.7%
Source; Dataguest August 1987 Ref; CVDSHR
SEMS Markets and Technology © 1987 Dataguest Incorporated August 29
Wafer Fab Equipment—Company Shares by Category
Table 20
CHEMICAL VAPOS DEPOSITION COMPANY SHARES JAPAN
(Millions of Dollars)
World CVD Market
APCVD Amaya Applied Materials Hitachi Kokusai Koyo Lindberg Pacific Western Tempress Watkins-Johnson
Total APCVD
LPCVD Anicon ASM BTU/Bruce Focus Semiconductor Genus Kokusai Koyo Lindberg Novellus Pacific Western Process Technology Reid-Ashman (ACS) Spectrum CVD TEL/Thermco Tempress Thermco Tylan Varian Others
Total LPCVD
1992
91.6
5.4 3.0 2.0 1.4 0.4 0.4 0.3 o
12.9
o 1.8 o o o
9.6 0.8 o o o 0 o
5.0 o o o o
1.6
18.8
1983"
150.0
9.4 6.3 1.3 l.O 0.8 0.7 0.2 o
19.7
0.5 1.3 o o
2.7 14.3 1.5 o o o o o
7.0 0.4 o o 0
2.0
29.7
1994
225.8
14.7 7.8 0.6 1.5 1.5 0.7 0.4 Qf7
27.9
3.3 2.1 O.l
o 8.0 16.8 1.7 o o o o o
11.2 0.3 o o o
2,9
46.4
1985
224.7
10.9 6.3 0.3 0.7 0.6 0.5 0.2 l.O
20.5
4.9 2.5 0.3
o 10.0 14.5 1.9 o o o o o
15.0 o.l o o o
1.3
50.5
1986
185.3
6.0 5.4 0.4 0.7 0.4 0.4 0.3 0.5
14.1
2.0 3.0 0.4 o
4.8 16.2 1.8 o o o o o
7.0 o o o o
i.o
36.2
CAGR 1982-1986
19.3%
2.2%
17.8%
(Continued)
30 1987 Dataguest I n c o r p o r a t e d August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 20 (Continued)
CHEMICAL VAPOR DEPOSITION COMPANY ^ARES JAPAN
(Millions of Dollars)
IVD Applied Materials ASM Enya E.T. Electrotech Japan Production Pacific Western Plasma-Therm Ulvac
Total PECVD
Total Japan CVD
1982
1.9 1.6 1.9 0.8 2.6 0.7 0
0,5
10.0
41.7
1983
1.6 8.4 3.8 0.4 4.1 3.8 o
1,3
23.4
72.8
1984
2.7 8.7 5.1 1.2 5.5 5.7 o
2.7
31.6
105.9
1985
l.O 8.8 4.2 2.4 5.9 3.8 o
2,9
29.0
lOO.O
1986
2.1 9.9 1.6 0.7 4.8 2.7 1.2 3.0
26.0
76.3
Source:
CAGR 1982-1986
27.0%
16.3%
Dataguest August 1987 Ref: CVDSHR
SEMS Markets and Technology ® 1987 Dataguest Incorporated August 31
Wafer Fab Equipment—Company Shares by Category
Table 21
CHEMICAL VAPOR DEPOSITION COMPANY SHARES EDROPE
(Millions of Dollars)
World CVD Market
APCVD Amaya Applied Materials Hitachi Kokusai Koyo Lindberg Pacific Western Tempress Watkins-Johnson
Total APCVD
LPCVD Anicon ASM BTU/Bruce Focus Semiconductor Genus Kokusai Koyo Lindberg Novellas Pacific Western Process Technology Reid-Ashman (ACS) Spectrum CVD TEL/Thermco Tempress Thermco Tylan Varian Others
Total LPCVD
1982
91.6
0 0.7 0 0 0
0.1 0.1 0
0.9
0 2.7 0 0 0 0 0 0 0 0
0.4 0 0
0.4 1.5 0.5 0 0
5.5
1983
150.0
0 0.5 0 0 0
0.1 0.2 0
0.8
0 1.7 0.1 0 0 0 0 0 0 0
0.5 0 0
0.3 1.8 0.1 0 0
4.5
1984
225.8
0 0.7 0 0 0
0.2 0.5 0,4
1.8
3.5 3.3 0.5 0 0 0 0 0 0
1.2 0.6 0 0
0.2 3.5 0 0 0
12.8
1985
224.7
0 0.9 0 0 0
0.3 0.4 0
1.6
3.0 3.1 0.5 0
0.5 0 0 0 0
1.6 1.4 0 0
0.6 5.2 0.2 0 0
16.1
1986
185.3
0 0.7 0 0 0
0.4 0.5 0.4
2.0
2.5 2.2 2.0 0
0.5 0 0 0 0
1.9 0.6 0 0
0.6 4.7 0.3 0 0
15.3
CAGR 1982-1986
19.3%
22.1%
29.1%
(Continued)
32 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 21 (Continued)
CHEMICAL VAPOR DEPOSITIOH C(»<PANY SHARES EUROPE
(Millions of Dollars)
PECVD Applied Materials ASM Enya E.T. Electrotech Japan Production Pacific Western Plasma-Therm Ulvac
Total PECVD
Total Europe CVD
1982
0.3 2.3 0
1.1 0
0.4 0.5 0
4.6
11.0
1993
0.3 3.5 0
2.0 0
0.4 0.6 0
6.8
12.1
19?4
0.6 3.5 0
2.8 0
0.8 0.7 0
8.4
23.0
1985
1.3 3.5 0
6.5 0
0.8 1.0 0
13.1
30.8
1986
0.7 4.5 0
8.5 0
1.3 0,8 0
15.8
33.1
Source:
CAGR 1982-1986
36.1%
31.7%
Dataquest August 1987 Ref: CVDSHR
SEMS Markets and Technology @ 1987 Dataquest Incorporated August 33
Wafer Fab Equipment—Company Shares by Category
Table 22
CHEMICAL VAPOR DEPOSITION C0MPAN7 SHAKES REST OF WORLD
(Millions of Dollars)
-
World CVD Market
APCVD Amaya Applied Materials Hitachi Kokusai Koyo Lindberg Pacific Western Tempress Watkins-Johnson
Total APCVD
LPCVD Anicon ASM BTU/Bruce Focus Semiconductor Genus Kokusai Koyo Lindberg Novellas Pacific Western Process Technology Reid-Ashman (ACS) Spectriun CVD TEL/Thermco Tempress Thermco Tylan Varian Others
Total LPCVD
1982
91.6
0 0 0 0 0 0
0.2 0
0.2
0 0.2 0 0 0 0 0 0 0 0
0.1 0 0
0.4 0.1 0 0 0
0.8
1983
150.0
0 0.2 0 0 0 0
0.2 0
0.4
o 0.4 o o o o o o o o
0.2 o o
0.6 0.3 O.l o o
1.6
1994
225.8
o 0.3 o o o o
0.2 0r4
0.9
0.6 0.7 0.3 o o o o o o o
0.2 o
1.2 0.9 0.6 o o 0
4.5
1985
224.7
o 0.9 o o o o
o.l 1.5
2.5
l.O 0.9 0.3 o o o o o o
o.l 0.7 o o
1.4 1.9 1.5 o Q
7.8
1986
185.3
o 0.5 o o o o
o.l 1.6
2.2
i.o 0.4 o.l o
0.5 o o o o
0.2 0.6 o o
0.7 2.8 o o 0
6.3
CAGR 1982-1986
19.3%
82.1%
•'
67.5%
(Continued)
34 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 22 (Continued)
CHEMICAL VAPOR DEPOSITION COMPANY SHARES REST OF WORLD
(Millions of Dollars)
PECVD Applied Materials ASM Enya E.T. Electrotech Japan Production Pacific Western Plasma-Therm Ulvac
Total PECVD
Total ROW CVD
1992
0.3 0.2 0 0 0 0 0 0
0.5
1.5
1983
0.6 0.4 0
0.4 0 0
0.2 9
1.6
3.6
1984
0.6 1.2 o
0.4 o o
0.5 o
2.7
8.1
1985
l.O 1.7 o
l.O o o
0.8 0
4.5
14.8
1986
0.6 1.5 o
2.0 o o
0.8 0
4.9
13.4
Source:
CAGR 1982-1986
76.9%
72.9%
Dataquest August 1987 Ref: CVDSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 35
Wafer Fab Equipment—Company Shares by Category
Table 23
CHEMICAL VAPOR DEPOSITION COMPANY SHARES WORLDWIDE
(Millions of Dollars)
World CVD Market
APCVD Amaya Applied Materials Hitachi Kokusai Koyo Lindberg Pacific Western Tempress Watkins-Johnson
Total APCVD
LPCVD Anicon ASM BTU/Bruce Focus Semiconductor Genus Kokusai Koyo Lindberg Novellus Pacific Western Process Technology Reid-Ashman (ACS) Spectrum CVD TEL/Thermco Tempress Thermco Tylan Varian Others
Total LPCVD
1982
91.6
5.4 5.0 2.0 1.4 0.4 1.1 2.5 1,8
19.6
0 7.6 0 0 0
9.6 0.8
o o 0
5.5 0
5.0 3.6 4.4 1.3 o
1.6
39.4
1983
150.0
9.4 9.9 1.3 l.O 0.8 1.4 3.0 2.8
29.6
1.1 5.6 1.2 o
6.9 14.3 1.5 o o
1.3 8.1 o
7.0 4.9 5.2 1.4 o
2.0
60.5
1984
225.8
14.7 11.9 0.6 1.5 1.5 1.6 3.6 4,8
40.2
16.8 8.3 2.3 o
17.5 16.8 1.7 o
0.3 4.4 9.4 o
12.8 5.9 9.0 2.0 o
2.9
110.1
3,985
224.7
10.9 9.9 0.3 0.7 0.6 1.4 2.1 5,9
31.8
15.6 7.8 3.7 o
20.5 14.5 1.9 o
0.4 5.7 12.9
o 15.0 7.6 14.5 2.3 o
1.3
123.7
1986
185.3
6.0 7.8 0.4 0.7 0.4 1.2 2.2 8.1
26.8
8.8 6.3 5.8 1.5 11.6 16.2 1.8 o
0.5 6.2 5.3 0.5 7.0 3.8 15.5 0.7 1.1 l.O
93.6
CAGR 1982-1986
19.3%,
8.1%
24.1%
(Continued)
36 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 23 (Continued)
CHEMICAL VAPOR DEPOSITION COMPANY SHARES WORLDWIDE
(Millions of Dollars)
PECVD Applied Materials ASM Enya E.T. Electrotech Japan Production Pacific Western Plasma-Therm Ulvac
T o t a l PECVD
To t a l Worldwide CVD
1982
4.0 12.9 1.9 2.7 2.6 5.7 2.3 0r5
32.6
91.6
1983
4.0 29.4 3.8 4.0 4.1 9.3 4.0 1.3
59.9
150.0
1984
6.2 31.4 5.1 6.4 5.5 12.5 5.7 2,7
75.5
225.8
1985
5.6 22.7 4.2 13.6 5.9 8.7 5.6 2.9
69.2
224.7
1986
4.8 22.7 1.6 15.3 4.8 6.9 5.8 3.0
64.9
185.3
Source:
CAGS 1982-1986
18.8%
19.3%
Dataquest August 1987 Ref: CVDSHR
SEMS Markets and Technology ® 1987 Dataquest Incorporated August 37
Wafer Fab Equipment—Company Shares by Category
Table 24
PHYSICAL VAPOR DEPOSITION COMPANY SHARES UNITED STATES
(Millions of Dollars)
World PVD Market
Sputtering Anelva Balzers CHA Industries Circuits Processing
CVC Products Edwards High Vacuum E.T. Electrotech Ion Tech Kurt J. Lesker Leybold-Heraeus Materials Research Perkin-Elraer Sputtered Films TEL/Varian Temescal Tokuda Tor r Vac Ulvac Varian Others
Total Sputtering
Evaporation Anelva Balzers CHA Industries Edwards High Vacuum Kurt J. Lesker Temescal TorrVac Ulvac Others
Total Evaporation
Total U.S. PVD
1982
130.8
0 1.4 0.3 6.0 4.0 0 0
1.7 0 0
12.3 9.9 1.0 0
1.2 0
0.2 0
12.9 0
50.9
0 3.6 4.8 0 0
3.4 0.2 0 0
12.0
62.9
1983
154.7
0 2.4 0.6 3.0 4.0 0
0.4 1.4 0.1 0
15.0 5.2 2.0 0
0.9 0
0.4 0
17.4
0
52.8
0 2.8 3.5 0
0.1 2.9 0.2 0 0
9.5
62.3
1984
236.2
1.8 5.9 0.3 3.0 6.0 0
1.7 1.2 0.9 0.9
24.2 6.7 2.0 0
1.0 0
0.4 1.5 27.5
0
85.0
0 4.5 5.7 0
0.2 2.8 0.3 0 0
13.5
98.5
1985
268.0
3.6 4.0 1.0 4.5 7.0 0
3.1 2.2 0.8 2.0
24.0 4.9 1.0 0
1.3 0
1.8 0.5
29.1
0.1
90.9
0.4 4.0 7.1 0
0.5 5.5 0.3 0.8 0.1
18.7
109.6
1986
245.1
2.6 5.6 0.7 2.0
10.0
0 1.3 2.8 0.8 3.0
16.6 4.6 1.3 0
1.3 0
1.8 3.3
25.9
1.0
84.6
2.3 1.8 5.6 0
0.3 5.7 0.2 1.4 0.2
17.5
102.1
Source:
CAGR 1982-1986
17.0%
13.5%
9.9%
12.9%
Dataquest August 1987
Ref: PVDSHR
38 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 25
PH7SICAE. VAPOS DEPOSITION C(»<PAN7 SHARES JAPAN
(Millions of Dollars)
World PVD Market
Sputtering Anelva Balzecs CHA Industries Circuits Processing CVC Products Edwards High Vacuum E.T. Electrotech Ion Tech Kurt J. Lesker Leybold-Heraeus Materials Research Perkin-Elmer Sputtered Films TEL/Varian Temescal Tokuda TorrVac Ulvac Varian Others
Total Sputtering
Evaporation Anelva Balzers CHA Industries Edwards High Vacuum Kurt J. Lesker Temescal TorrVac Ulvac others
Total Evaporation
Total Japan PVD
1982
130.8
4.8 0 0 0 0 0 0 0 0 0
3.4 2.4
0 0
1.0 2.2 0
2.2 14.1
0
1983
154.7
10.5 0 0 0 0 0
0.8 0.1 0 0
2.9 6.7 , 0 0
0.5 3.4 0
7.6 14.7
0
1984
236.2
25.3 0 0 0 0 0
1.3 0.4 0 0
4.9 3.8 0 0 0
5.1 0
14.3 22.7
0
1985
268.0
27.2 0 0 0 0 0
1.7 0.3 0 0
5.4 3.8
0 0 0
5.0 0.8 16.3 21.0
0
1986
245.1
18.0 0 0
0.9 0 0
0.5 0.4 0 0
0.9 0 0 0 0
3.3 0
14.7 16.8
0
CAGR 1982-1986
17.0»
30.1 47.2 77.8 81.5 55.5 16.5%
2.8 0 0 0 0
0.8 0
12.0 0
15.6
45.7
2.1 0.3 0 0 0
0.7 0
12.3 0
15.4
62.6
1.4 0.6 0 0 0
0.8 0
16.9 0
19.7
97.5
0 0.8 0 0 0
1.4 0
16.0 0
18.2
99.7
0 0.4 0 0 0
1.8 0
19.0 0
21.2
76.7
Source:
8.0%
13.8%
Dataquest August 1987 Ref; ; PVDSHR
SEMS Markets and Technology © 1987 Dataguest Incorporated August 39
Wafer Fab Equipment—Company Shares by Category
Table 26
PHYSICAL VAPOR DEPOSITION COMPANY SHARES ETTROPE
(Millions of Dollars)
World PVD Market
Sputtering Anelva Balzers CHA Industries Circuits Processing CVC Products Edwards High Vacuum E.T. Electrotech Ion Tech Kurt J. Lesker Leybold-He raeus Materials Research Perkin-Elmer Sputtered Films TEL/Varian Temescal Tokuda TorrVac Ulvac Varian others
Total Sputtering
'Evaporation Anelva Balzers CHA Industries Edwards High Vacuum Kurt J. Lesker Temescal TorrVac Ulvac Others
Total Evaporation
Total Europe PVD
1982
130.8
0 2.8 0 0
1.5 0
2.3 0 0 0
3.3 2.3 0 0
0.7 0 0
0.4 1.6 0
14.9
0 3.8 0 0 0
2.0 0 0 0
5.8
20.7
1983
154.7
0 4.0 0 0
1.5 0
2.4 0 0
1.0 3.3 1.2 0.4 0
0.7 0 0
1.3 3.6 0
19.4
0 2.8 0 0 0
2.7 0 0 0
5.5
24.9
1984
236.2
0 6.3 0 0
2.1 0
2.5 0 0
2.1 4.8 1.5 0 0
0.8 0 0
1.4 4.3 • 0
25.8
0 3.9 0 0 0
2.8 0 0 0
6.7
32.5
1985
268.0
0 6.1 0 0
2.5 0
3.9 0 0
3.0 6.4 1.0
0 0
0.8 0 0
3.3 7.9 0
34.9
0 5.6 0 0 0
3.3 0 0 0
8.9
43.8
1986
245.1
0 7.6 0 0
3.5 0
3.5 0 0
4.8 4.8 1.0 0 0 0 0 0
4.6 8.6 0
38.4
0 2.8 0 0 0
3.0 0
2.4 0
8.2
46.6
Source:
CAGR 1982-1986
17.0%
26.7«
9.0t
22.5%
Dataquest August 1987 Ref: PVDSHR
40 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 27
PH7SICAL VAPOR DEPOSITION COMPANY SHARES REST OF WORLD
(Millions of Dollars)
World PVD Market
Sputtering Anelva Balzers CHA Industries circuits Processing CVC Products Edwards High Vacuum E.T. Electrotech Ion Tech Kurt J. Lesker Leybold-Heraeus Materials Research Perkin-Elmer Sputtered Films TEL/Varian Temescal Tokuda TorrVac Ulvac Varian others
Total Sputtering
Evaporation Anelva Balzers CHA Industries Edwards Higti Vacuum Kurt J. Lesker Temescal TorrVac Ulvac others
Total Evaporation
Total ROW PVD
1982
130
0
0
1
0.
0.
1
.8
.5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 .8 0
.3
0 0 0 0 0 .2 0 0 0
.2
.5
1983
154.7
1.0 0 0 0 0 0 0 0 0 0 0
0.3 0 0 0 0 0
0.4 2.7 0
4.4
0 0 0 0 0
0.5 0 0 0
0.5
4.9
1984
236
0
0
1 5
7
7,
.2
.5 0 0 0 0 0 0 0 0 0 0 .8 0 0 0 0 0 .0 .4 0
.7
0 0 0 0 0 0 0 0 0
0
.7
1985
268
0
1 1
2 9
14
14.
.0
.5 0 0 0 0 0 0 0 0 0 .9 .1 0 0 0 0 0 .4 .0 0
.9
0 0 0 0 0 0 0 0 0
0
.9
1986
245.
1
2 1 0
4 9
19
19.
Source:
.1
.2 0 0 0 0 0 0 0 0 0 .5 .3 .3 0 0 0 0 .6 .8 0
.7
0 0 0 0 0 0 0 0 0
0
.7
CAGR 1982-1986
17.0%
97.3*
N/A
90.4%
Dataquest August 1987 Ref: PVDSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 41
Wafer Fab Equipment—Company Shares by Category
Table 28
PHYSICAL VAPOR DEPOSITIOH COMPANY SHARES WORLDWIDE
(Millions of Dollars)
world PVD Market
Sputtering Anelva Balzers CHA Industries circuits Processing CVC Products Edwards High Vacuum E.T. Electrotech Ion Tech Kurt J. Lesker Leybold-Heraeus Materials Research Perkin-Elmer Sputtered Films TEL/Varian Temescal Tokuda TorrVac Ulvac Varian Others
Total Sputtering
Evaporation Anelva Balzers CHA Industries Edwards High Vacuum Kurt J. Lesker Temescal TorrVac Ulvac Others
Total Evaporation
Total Worldwide PVD
1982
130.8
5.3 4.2 0.3 6.0 5.5 0
2.3 1.7 0 0
19.0 14.6 1.0 0
2.9 2.2 0.2 2.6 29.4
0
97.2
2.8 7.4 4.8 0 0
6.4 0.2 12.0
0
33.6
130.8
1983
154.7
11.5 6.4 0.6 3.0 5.5 0
3.6 1.5 0.1 1.0 21.2 13.4 2.4 0
2.1 3.4 0.4 9.3 38.4
0
123.8
2.1 5.9 3.5 0
0.1 6.8 0.2 12.3
0
30.9
154.7
1984
236.2
27.6 12.2 0.3 3.0 8.1 0
5.5 1.6 0.9 3.0
33.9 12.8 2.0 0
1.8 5.1 0.4
18.2 59.9
0
196.3
1.4 9.0 5.7 0
0.2 6.4 0.3 16.9
0
39.9
236.2
1985
268.0
31.3 10.1 1.0 4.5 9.5 0
8.7 2.5 0.8 5.0
37.7 10.8 1.0 0
2.1 5.0 2.6 22.5 67.0 0.1
222.2
0.4 10.4 7.1 0
0.5 10.2 0.3 16.8 0.1
45.8
268.0
1986
245.1
21.8 13.2 0.7 2.9
13.5 0
5.3 3.2 0.8 7.8 24.8 6.9 1.6 0
1.3 3.3 1.8 27.2 61.1 1.0
198.2
2.3 5.0 5.6 0
0.3 10.5 0.2 22.8 0.2
46.9
245.1
Source:
CAGR 1982-1986
17.0%
19.5%
8.7%
17.0%
Dataquest August 1987 Ref: PVDSHR
42 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 29
World Epitaxy Market
United States Applied Epitaxy Gemini Kokusai Shimada Sitesa Toshiba
Total
Japan Applied Epitaxy Gemini Kokusai Shimada Sitesa Toshiba
Total
Europe Applied Epitaxy Gemini Kokusai Shimada Sitesa Toshiba
Total
Materials Inc.
SILICON EPITAXY COMPANY SHARES REGIONAL
(Millions of Dollars)
1982
46.9
14.0 5.0 0 0 0 0 0
United States 19.0
Materials Inc.
Japan
Materials Inc.
Europe
8.0 2.0 0
11.1 0.8 0
2 , 0
23.9
3.0 0 0 0 0 0 0
3.0
1983
64.8
18.0 0
6.0 0 0 0 0
24.0
15.1 0
6.3 5.9 2.1 0
3P4
32.8
6.0 0 0 0 0 0 0
6.0
1984
111.8
33.7 0
10.0 0 0 0 0
43.7
25.3 0
13.9 6.3 2.5 0
2.1
50.1
8.0 0
5.0 0 0 0 0
13.0
1985
71.5
18.7 0
8.6 0 0 0 0
27.3
14.3 0
3.8 5.0 0.8 0
2.3
26.2
8.0 0
5.0 0 0 0 0
13.0
1986
49.3
12.2 0
4.0 0 0 0 0
16.2
11.1 0
1.8 2.1 0.5 0
1.0
16.5
8.0 0
3.2 0 0 0 0
11.2
CAGR 1982-1986
1.3%
(3.9%)
(8.8%)
39.0%
(Continued)
44 © 1987 Dataguest Incorporated August SEMS Markets and Techno logy
Wafer Fab Equipment—Company Shares by Category
Table 29 (Continued)
SILICON EPITAZ7 C0MPAN7 SHARES REGIONAL
(Millions of Dollars)
Rest of World Applied Materials Epitaxy Inc. Gemini Kokusai Shimada Sitesa Toshiba
1982
1.0 0 0 0 0 0 0
1983
2.0 0 0 0 0 0 0
19?4
3.0 0
2.0 0 0 0 Q
1985
3.0 0
2.0 0 0 0 0
1986
3.0 0
2.4 0 0 0 0
CAGR 1982-1986
T o t a l Rest of World 1.0 2.0 5.0 5.0 5.4 52.4%
Worldwide Applied Materials Epitaxy Inc. Gemini Kokusai Shimada Sitesa Toshiba
26.0 7.0 0
11.1 0.8 0
2.0
41.1 0
12.3 5.9 2.1 0
3.4
70.0 o
30.9 6.3 2.5 o
2.1
44.0 o
19.4 5.0 0.8 0
2.3
34.3 o
11.4 2.1 0.5 o
1.0
Total Worldwide 46.9 64.8 111.8 71.5 49.3 1.3%
Source: Dataguest August 1987 Ref: EPISHR
SEMS Markets and Technology © 1987 Dataguest Incorporated August 45
Wafer Fab Equipment—Company Shares by Category
Table 30
METALORGANIC CVD COMPANY SHARES UNITED STATES AND JAPAN (Millions of Dollars)
World MOCVD Market
United States Aixtcon Cambridge CVD Equipment Crystal Specialties CVT EEV Emcore Nippon FMC Nippon Sanso Samco Seiden Spire TEL/Therraco Thomas Schwonn Ulvac
Total United States
Japan Aixtron Cambridge CVD Equipment Crystal Specialties CVT EEV Emcore Nippon FMC Nippon Sanso Samco Seiden Spire TEL/Thermco Thomas Schwonn Ulvac
Total Japan
1982
2.3
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0 0 0 0 0 0 0
0.6 0
1.0 0.3 0 0 0
0.2
2.1
1983
7.5
0 1.0 0
0.2 0 0 0 0 0 0 0 0 0 0 g
1.2
0 0 0 0 0 0 0
0.6 1.1 0.9 0.9 0
1.1 0
0.2
4.8
1984
16.2
0 1.9 0.2 1.2 0.5 0 0 0 0 0 0
0.5 0
0.5 0
4.8
0 •
0 0 0 0 0 0
0.8 2.3 1.1 1.3 0
2.3 0
1.5
9.3
1985
24.9
0 1.9 0.8 1.8 0 0
0.1 0 0 0 0
4.2 0
0.6 0
9.4
0 0.3 0 0 0 0 0
1.1 3.6 0.7 0.9 0
2.3 0
1.9
10.8
1986
30.1
0 1.1 1.5 2.5 0
0.2 2.3 0 0 0 0
2.9 0 0 g
10.5
0 0.4 0
0.5 0 0 0
1.5 4.6 1.0 1.3 0
3.0 0
2.7
15.0
CAGR 1982-1986
90.2%
N/A
63.5%
N/A = Not Applicable
Source: Dataquest August 1987 Ref: MOCVOSRR
46 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
T a b l e 3 1
METALORGANIC CVD CC»4PAN7 SHARES EUROPE AHD ROW
( M i l l i o n s o f D o l l a r s )
world MOCVD Market
Europe Aixtron Cambridge CVD Equipment Crystal Specialties CVT EEV Emcore Nippon FMC Nippon Sanso Samco Seiden Spire TEL/Tliermco Thomas Schwonn Ulvac
Total Europe
Rest of World Aixtron Cambridge CVD Equipment Crystal Specialties CVT EEV Emcore Nippon FMC Nippon Sanso Samco Seiden Spire TEL/Thermco Thomas Schwonn Ulvac
1982
2.3
0 0.2 0 0 0 0 0 0 0 0 0 0 0 0 0
0.2
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1983
7.5
0 0.8 0 0
0.4 0 0 0 0 0 0 0 0
0.2 g
1.4
0 0 0
0.1 0 0 0 0 0 0 0 0 0 0 g
1984
16
1
0
2
.2
0 .6 0 0 0 0 0 0 0 0 0 0 0 .5 0
.1
0 0 0 0 0 0 0 0 0 0 0 0 0 0 _0
1985
24
0 1
0 1
0
4
.9
.5
.9 0 0 .7 .0 0 0 0 0 0 0 0 .6 0
.7
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
1986
30
0 1
0 1
0
0
4
.1
.6
.4 0 0 .4 .2 0 0 0 0 0 .4 0 .6 0
.6
0 0 0 0 0 0 0 0 0 0 0 0 0 0 _0
CAGR 1982-1986
90.2%
119.0%
Total Rest of World 0 . 1 N/A
N/A = Not Applicable
Sou rce: l lataquest August 1987 Ref: HOCVDSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 47
Wafer Fab Equipment—Company Shares by Category
(Page intentionally left blank)
48 © 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 32
.s
World MOCVD Market
Worldwide Aixtron Cambridge CVD Eguipment Crystal Specialties CVT EEV Emcore Nippon FMC Nippon Sanso Samco Seiden Spire TEL/Thermco Thomas Schwonn Ulvac
MBTAL0R6ANIC CVD COMPANY SHARES WORLDWIDE
(Millions
19^2
2.3
0 0.2 0 0 0 0 0
0.6 0
1.0 0.3 0 0 0
0.2
of Dollars)
1363
7.5
0 1.8 0
0.3 0.4 0 0
0.6 1.1 0.9 0.9 o
1.1 0.2 0.2
1994
16.2
o 3.5 0.2 1.2 0.5 o o
O.B 2.3 1.1 1.3 0.5 2.3 i.o 1.5
1985
24.9
0.5 4.1 o.a 1.8 0.7 i.o o.i 1.1 3.6 0.7 0.9 4.2 2.3 1.2 1.9
1986
30.1
0.6 2.9 1.5 3.0 0.4 1.4 2.3 1.5 4.6 1.0 1.3 3.3 3.0 0.6 2.7
CAGR 1982-1986
90.2%
Total Worldwide 2.3 7.5 16.2 24.9 30.1 90.2%
Source; Dataguest August 1987 Ref: MOCVDSHR
SKMS Markets and Technology 1987 Dataguest Incorporated August 49
Wafer Fab Equipment—Company Shares by Category
Table 33
MOLECULAR BEAM EPITAXY COMPANY SHARES SEGIONAL
(Millions of Dollars)
World MBE Market
United States Anelva CVT Eiko ISA Riber Nippon Sanso Perkin-Elmer Seiko Ulvac Varian V6 Instruments
Total United States
Japan Anelva CVT Eiko ISA Riber Nippon Sanso Perkin-Elmer Seiko Ulvac Varian VG Instruments
Total Japan
Europe Anelva CVT Eiko ISA Riber Nippon Sanso Perkin-Elmer Seiko
19?2
22.1
0 0 0
4.9 0 0 0 0
4.0 0
8.9
0.8 0 0
3.6 0 0 0
0.7 0.8 0
5.9
D 0 0
4.9 0 0 0
1983
36.5
0 0 0
6.3 0 0 0 0
4.1 5t2
15.6
1.3 0 0
7.0 0 0 0
1.3 0.8 0.9
11.3
0 0 0
6.3 0 0 0
1984
47.2
0 0 0
8.4 0
2.7 0 0
4.2 7,5
22.8
2.5 0 0
7.0 0 0 0
1.7 0.8 Or?
12.9
0 0 0
7.0 0 0 0
1985
60.4
0 0 0
6.3 0
6.0 0 0
5.8 8,2
26.3
6.3 0 0
1.4 0 0
0.8 3.4 0.8 4,0
16.7
0 0 0
7.0 0 0 0
1986
74.0
0 0 0
6.3 0
7.2 0 0
7.9 8,4
29.8
7.7 0 0
1.4 0 0
2.2 4.8 0.8 5,0
21.9
0 0 0
5.6 0 0 0
CAGR 1982-1986
35.3%
35.3%
38.8%
'
(Continued)
50 © 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 33 (Continued)
MOLECULAR BEAM EPITAZ? C(»<PAN7 SHARES REGIONAL
(Millions of Dollars)
Europe (Continued) Ulvac Varian VG Instruments
1982
0 2.4 0
1983
0 2.4 0.2
1984
0 2.4 0.7
1985
0 2.4 5.4
1986
0 6.4 8.4
CAGR 1982-1986
Total Europe
Rest of World Anelva CVT Eiko ISA Riber Nippon Sanso Perkin-Elmer Seiko Ulvac Varian VG Instruments
7 . 3
0 0 0 0 0 0 0 0 0 0
8 . 9
0 0 0
. 7 0 0 0 0 0 £1
1 0 . 1
0 0 0
.4 0 0 0 0 0
Ji
1 4 . 8
0 0 0
,4 0 0 0 0 0
L2
2 0 . 4
0 0 0 0 0 0 0 0 0
1 ^
29.3%
T o t a l R e s t o f World 0.7 1.4 2.6 1.9 N/A
Anelva CVT Eiko ISA Riber Nippon Sanso Perkin-Elmer Seiko Ulvac Varian VG Instruments
0.8 0 0
13.4 0 0 0
0.7 7.2 0
1.3 o o
20.3 0 o o
1.3 7.3 6.3
2.5 o 0
23.8 o
2.7 0
1.7 7.4 9.1
6.3 o o
16.1 o
6.0 0.8 3.4 9.0 18.8
7.7 o o
13.3 o
7.2 2.2 4.8 15.1 23.7
Total Worldwide
N/A = Not Applicable
22.1 36.5 47.2 60.4 74.0 35.3%
Source: Dataquest August 1987 Sef: MBESHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 51
Wafer Fab Equipment—Company Shares by Category
Table 34
DIFFaSION FURNACE COMPANY SHARES UNITED STATES AND JAPAN (Millions of Dollars)
World Diffusion Market
United States ASM BTU/Bruce BTU/Ulvac Denki Gasonics Helmut Seier Kokusai Koyo Lindberg Pacific Western Process Technology Reid-Ashinan (ACS) Silicon Valley Group TEL/Tiiermco Tempress Thermco Tylan Others
Total United States
1982
105.2
1.0 13.2
0 Q
2.9 0 0 0 0 0
0.4 0 0 0
17.3 4.5 0
1983
121.6
1.0 24.0
0 0
3.7 0 0 0
1.0 0
0.6 0 0 0
8.5 4.6 0
1984
199.2
0.7 29.7
0 0
8.4 0.1 0 0
1.8 0
0.5 0
1.2 0
30.0 5.2 0
1985
212.2
0.4 27.1
0 0
11.7 0.5 0 0
1.1 0 0 0 0 0
35.0 1.2 0
1986
165.6
0.2 18.4
0 0
14.0 0.2 0 0
0.6 0
0.2 0.3 0 0
22.5 1.7 0
CAGR 1982-1986
12.0%
39.3 43.4 77.6 77.0 58.1 10.3%
Japan ASM BTU/Bruce BTU/Ulvac Denki Gasonics Helmut Seier Kokusai Koyo Lindberg Pacific Western Process Technology Reid-Ashman (ACS) Silicon Valley Group TEL/Tliermco Tempress Thermco Tylan Others
Total Japan
0 0 0
0.5 0 0
19.3 7.2 0 0 0 0
20.0 0 0 0 0
47.0
0 0 0
0.5 0 0
22.7 8.4 0 0 0 0
26.0 0 0 0 0
57.6
0 0
1.7 1.1 0 0
25.3 9.7 0 0 0 0
44.8 0 0 0 0
82.6
0 0
4.6 0.6 0
0.3 16.8 9.6 0 0 0 0
60.0 0 0 0 0
91.9
0 0
2.3 0.6 0
0.3 12.0 6.0 0 0 0 0
49.0 0 0 0 0
70.2 10.6%
Source: Dataquest August 1987 Ref: DIFFSHR
52 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 35
DIFFHSION FOBNACE CGtSPMSa SHARES EUROPE AND SOW
(Millions of Dollars)
World Diffusion Market
Europe ASM BTO/Bruce BTU/Ulvac Denki Gasonics Helmut Seier Kokusai Koyo Lindberg Pacific Western Process Technology Reid-Ashman (ACS) Silicon Valley Group TEL/Thermco Tempress Thermco Tylan others
Total Europe
Rest of World ASM BTU/Bruce BTU/Ulvac Denki Gasonics Helmut Seier Kokusai Koyo Lindberg Pacific Western Process Technology Reid-Ashman (ACS) Silicon valley Group TEL/Thermco Tempress Thermco Tylan Others
Total Rest of World
1982
105
5
9
1
16
0
2
2.
.2
.5 0 0 0 0 0 0 0 0 0 0 0 0 0 .2 0 .5
.2
.4 0 0 0 0 0 0 0 0 0 0 0 0 0 .3 0 0
,7
1983
121
6
4
0
11
8
1
9,
.6
.0 0 0 0 0 0 0 0 0 0 0 0 0 0 .4 0 .9
.3
.0 0 0 0 0 0 0 0 0 0 0 0 0 0 .3 0 0
,3
1964
199.2
8.5 4.2
0 0 0 0 0 0 0 0
0.1 0 0 0
15.0 0
1.7
29.5
1.4 1.6 0 0 0 0 0 0 0 0 0 0
1.2 0
5.0 0.3 0
9.5
1985
212
7 4
16 0 1
30
1 1
7, 2,
12.
.2
.5
.9 0 0 0 0 0 0 0 0 0 0 0 0 .4 .1 .6
.5
.6
.5 0 0 0 0 0 0 0 0 0 0 0 0 .0 .7 0
,8
1986
165.6
8.0 4.2
0 0 0 0 0 0 0 0 0 0 0 0
13.0 0.8 1.7
27.7
0.6 1.1 0 0 0 0 0 0 0 0
0.1 0 0 0
7.8 0 0
9.6
CAGR 1982-1986
12.0«
14.4%
37.3%
Source: Dataquest August 1987 Ref : DIFFSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 53
Wafer Fab Equipment—Company Shares by Category
(Page intentionally left blank)
54 © 1987 Dataguest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 36
DIFFUSION FDSNACE COMPANY SHARES WOELDHIDE
(Millions of Dollars)
World Diffusion Market
Worldwide ASM BTU/Bruce BTU/Ulvac Denki Gasonics Helmut Seier Kokusai Koyo Lindberg Pacific Western Process Technology Reid-Ashinan (ACS) Silicon Valley Group TEL/Thermco Tempress Thermco Tylan Others
1982
105.2
6.9 13.2
0 0.5 2.9 0
19.3 7.2 0 0
0.4 0
20.0 0
28.8 4.5 1.5
;983
121.6
15.0 24.0
0 0.5 3.7 0
22.7 8.4 1.0 0
0.6 o
26.0 o
14.2 4.6 0.9
1984
199.2
10.6 35.5 1.7 1.1 8.4 O.l 25.3 9.7 1.8 o
0.6 o
47.2 o
50.0 5.5 1.7
1985
212.2
9.5 33.5 4.6 0.6 11.7 0.8 16.8 9.6 1.1 o o o
60.0 o
58.4 4.0 1.6
1986
165.6
8.8 23.7 2.3 0.6 14.0 0.5 12.0 6.0 0.6 o
0.3 0.3 49.0
o 43.3 2.5 lr7
CAGS 1982-1986
12.0%
Total Worldwide 105 .2 121 .6 199 .2 212.2 165 .6 12.0%
Source: Dataquest August 1987 Sef: DIFFSHR
SEMS Markets and Technology © 1987 Dataquest Incorporated August 55
Wafer Fab Equipment—Company Shares by Category
Table 37
RAPID THERMAL PROCESSING COMPKSY SHARES REGIONAL
(Millions of Dollars)
World RTP Market
United States AET AG Associates Dainippon Screen Eaton Kokusai Koyo-Lindbe rg
Nanos i l Peak Systems Process Products TEL/Thermco Varian
T o t a l United States
Japan AET AG Associates Dainippon Screen Eaton Kokusai Koyo-Lindberg Nanosil Peak Systems Process Products TEL/Thermco Varian
Total Japan
Europe AET AG Associates Dainippon Screen
Eaton Kokusai
1982
2.3
0 1.0 0 0 0 0 0 0 0 0
0.4
1.4
0 0.5 0 0 0 0 0 0 0 0
0.3
0.8
0.1 0 0 0 0
1983
3.9
0 1.0 0 0 0 0 0 0 0 0
iL.4
1.4
0 1.8 0 0 0 0 0 0 0 0
Ot4
2.2
0.3 0 0 0 0
1984
10.2
0 2.3 0
0.7 0 0 0 0 0 0
0.3
3.3
0 3.3 1.2 0 0 0 0 0 0
0.4 0t2
5.1
0.4 0.4 0
0.8 0
1985
13.8
0 4.5 0
0.7 0 0 0 0
0.5 0
0.1
5.8
0 2.4 1.9 0 0 0 0 0 0
0.4 0.2
4.9
0.4 1.2 0
0.5 0
1986
16.4
0 5.4 0
0.2 0 0 0
0.7 0.5 0
0.2
7.0
0 1.6 1.8 0.2 0.2 0.9 0
0.2 0
0.4 0.2
5.5
0.7 1.6 0
0.3 0
CAGR 1982-1986
63.4%
49.5%
61.9%
(Continued)
56 © 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 37 (Cont inued)
RAPID THERMAL PROCESSING COMPAMY SHARES REGIONAL
( M i l l i o n s o f D o l l a r s )
Europe (Continued) Koyo-Lindberg Nanosil Peak Systems Process Products TEL/Thermco Varian
Total Europe
Rest of World AET AG Associates Dainippon Screen Eaton Kokusai Koyo-Lindberg Nanosil Peak Systems Process Products TEL/Thermco Varian
Total Rest of World
Worldwide AET AG Associates Dainippon Screen Eaton Kokusai Koyo-Lindberg Nanosil Peak Systems Process Products TEL/Thermco Varian
1982
0 0 0 0 0 0
0.1
0 0 0 0 0 0 0 0 0 0
g
0
0.1 1.5 0 0 0 0 0 0 0 0
0.7
1983
0 0 0 0 0 0
0.3
0 0 0 0 0 0 0 0 0 0
g
0
0.3 2.8 0 0 0 0 0 0 0 0
0.8
1984
0
1
0
0
0 6 1 1,
0. 0.
0 0 0 0 0 .1
.7
0 .1 0 0 0 0 0 0 0 0 0
.1
.4
.1
.2
.5 0 0 0 0 0 .4 .6
1985
0 0 0 0 0
0.1
2.2
0 0.7 0
0.2 0 0 0 0 0 0
g
0.9
0.4 8.8 1.9 1.4 0 0 0 0
0.5 0.4 0.4
CAGR 1986 1982-1986
0 0 0 0 0 0
2.6 125.8%
0 1.0 0 0 0 0 0
0.3 0 0 0
1.3 N/A
0.7 9.6 1.8 0.7 0.2 0.9 0
1.2 0.5 0.4 0.4
Total Worldwide
N/A = Not Applicable
2.3 3.9 10.2 13.8 16.4 63.4%
Source: Dataquest August 1987 Ref: RTPSHR
SEMS Markets and Technology © 1987 Dataguest Incorporated August 57
Wafer Fab Equipment—Company Shares by Category
Table 38
ION IMPLANTATION COMPANY SHARES UNITED STATES
(Millions of Dollars)
World Implanter Market
Medium Current Balzers Eaton Hitachi Nissin TEL/Varian Olvac Varian Veeco Others
Total Medium
High Current
Current
Applied Materials Balzers Eaton Hitachi Nissin TELAarian Ulvac Varian Veeco
Total High Current
High Voltage Eaton General lonex HVE Europa National Electrostatics Varian Veeco
Total High Voltage
Total United States
1982
111.3
0 9.0 0 0 0 0
20.0 2.0 0
31.0
2.0 0
17.0 0 0 0 0
5.0 0
24.0
0 0 0
0.2 0 0
0.2
55.2
1983
173.8
0 10.0
0 0 0 0
23.0 5.0 0
38.0
0 0
28.0 0 0 0 0
6.0 0
34.0
0 0 0
1.1 0 0
1.1
73.1
1984
286.1
0 13.0
0 0 0 0
35.0 5.0 0
53.0
0 0
50.4 0 0 0 0
10.0 5.0
65.4
0 0 0
1.1 0 0
1.1
119.5
1985
305.6
0 14.8
0 0 0 0
19.1 2.0 0
35.9
0 0
35.1 0 0 0 0
4.2 3.0
42.3
0 0 0
0.9 0 0
0.9
79.1
1986
129.3
0 6.6 0 0 0 0
9.2 0 0
15.8
0 0
8.8 0 0 0 0
4.0 0
12.8
2.0 3.6 0
2.5 3.9 0
12.0
40.6
CAGR 1982-1986
3.8%
(15.5%)
(14.5%)
178.3%
(7.4%)
Source: Dataquest August 1987' Ref : IMPLSHR
58 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 39
ION IMPLANTATION COMPANY SHARES JAPAN
(Millions of Dollars)
World Implanter Market
Medium Current Baizers Eaton Hitachi Nissin TEL/Varian Ulvac Varian Veeco
Total Medium Current
High Current Applied Materials Balzers Eaton Hitachi Nissin TEL/Varian Ulvac Varian Veeco
Total High Current
High Voltage Eaton General lonex HVE Europa National Electrostatics Varian Veeco
Total High Voltage
Total Japan
1982
111.3
0 0 0
2.8 4.6 8.5 5.8 0
21.7
0 0
7.7 2.3 1.4 0 0
14.3 0
25.7
0 0 0
0.4 0 0
0.4
47.8
1983
173.8
0 0 0
4.6 11.3 12.2 2.4 0
30.5
0 0
17.6 3.4 2.7 2.1 1.5 17.9
0
45.2
0 0 0
0 0 0
0
75.7
1984
286.1
0 0 0
12.6 16.9 9.7 0.5 0
39.7
0 0
33.3 3.4 2.7 10.5 2.3
25.9 0
78.1
0 0 0
0 0 0
0
117.8
1985
305.6
0 1.1 0
23.9 26.4 9.0 1.8 0
62.2
0 0
23.8 6.3 3.6
10.5 3.2
39.9 3.0
90.3
0 0 0
0.3 0 0
0.3
152.8
1986
129.3
0 1.5
0 12.3 5.2 5.2 0 0
24.2
2.2 0
3.9 5.2 2.1 5.0 2.3 0 0
20.7
0 1.2 0
1.1 0 0
2.3
47.2
CAGR 1982-1986
3.8%
2.8%
(5.3%)
N/A
(0.3%)
N/A = Not Available
Source: Dataquest August 1987 Ref: IMPLSHR
SEMS Markets and Technology 1987 Dataguest Incorporated August 59
Wafer Fab Equipment—Company Shares by Category
Table 40
ION IMPLANTATION COMPANY SHARES EUSOPE
(Millions of Dollars)
World Implanter Market
Medium Current
Balzers Eaton Hitachi Nissin TEL/Varian Ulvac Varian Veeco
Total Medium Current
High Current Applied Materials
Balzers Eaton Hitachi Nissin TEL/Varian Ulvac Varian Veeco
Total High Current
High Voltage
Eaton General lonex HVE Europa
National Electrostatics
Varian
Veeco
Total High Voltage
Total Europe
1982
111.3
0 1.3
0 0 0 0
2.0 1.0
4.3
0 1.0 2.0 0 0 0 0
1.0 0
4.0
0 0 0
0 0 0
0
8.3
1983
173.8
4.0 2.0 0 0 0 0
6.0 1.0
13.0
0 0
5.0 0 0 0 0
3.0 0
8.0
0 0 0
0 0 0
0
21.0
1984
286.1
6.0 2.9 0 0 0 0
12.0 1.0
21.9
0 0
11.7 0 0 0 0
5.0 0
16.7
0 0 0
0 0 0
0
38.6
1985
305.6
0 6.0 0 0 0 0
16.6 0
22.6
0 0
16.1 0 0 0 0
4.2 1.0
21.3
0 0 0
1.2 0 0
1.2
45.1
1986
129.3
0 3.5 0 0 0 0
6.9 0
10.4
2.2 0
11.8 0 0 0 0
3.0 0
17.0
0 0 0
0.3 0 0
0.3
27.7
CAGR
1982-1986
3.8ft
24.7%
43.e«
N/A
35.2%
N/A = Not Applicable
Source: Dataquest August 1987 Ref: IHPLSHR
60 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment—Company Shares by Category
Table 41
ION IMPLAMTAXION COMPANY SHARES REST OF WORLD
(Millions of Dollars)
World Implanter Market
Medium Current Balzers Eaton Hitachi Nissin TEL/Varian Ulvac Vacian Veeco
Total Medium Current
High Current Applied Materials Balzers Eaton Hitachi Nissin TEL/Varian Ulvac Varian Veeco
Total High Current
High Voltage Eaton General lonex HVE Europa National Electrostatics Varian Veeco
Total High Voltage
Total Rest of World
1982
111.3
0 0 0 0 0 0 0 0
0
0 0 0 0 0 0 0 0 0
0
0 0 0
0 0 0
0
0
1983
173
1
1
1
2
3.
4.
.8
0 0 0 0 0 0 .0 0
.0
0 0 .0 0 0 0 0 .0 0
.0
0 0 0
0 0 0
0
.0
1984
286.1
0 0.5 0 0 0 0
3.0 0
3.5
0 0
2.7 0 0 0 0
4.0 0
6.7
0 0 0
0 0 0
0
10.2
1985
305.6
0 0.6 0 0 0 0
10.5 0
11.1
0 0
12.3 0 0 0 0
5.2 0
17.5
0 0 0
0 0 0
0
28.6
1986
129.3
0 1.9 0 0 0 0
4.0 0
5.9
0 0
5.9 0 0 0 0
2.0 0
7.9
0 0 0
0 0 0
0
13.8
CAGR 1982-1986
3.8%
N/A
N/A
N/A
N/A
N/A = Not Applicable
Source: Dataquest August 1987 Ref: IMPI^HR
SEMS Markets and Technology ® 1987 Dataquest Incorporated August 61
Wafer Fab Equipment—Company Shares by Category
Table 42
ION IMPLANTATION COMPANY SHARES WORLDWIDE
(Millions of Dollars)
World Implanter Market
Medium Current Balzers Eaton Hitachi Nissin TEL/Varian Ulvac Varian Veeco others
Total Medium Current
High Current Applied Materials Balzers Eaton Hitachi Nissin TEL/Varian 01 vac Varian Veeco
Total High Current
High voltage Eaton General lonex HVE Europa National Electrostatics Varian Veeco
Total High Voltage
Total Worldwide
1982
111.3
0 10.3
0 2.8 4.6 8.5 27.8 3.0 0
57.0
2.0 1.0 26.7 2.3 1.4 0 0
20.3 0
53.7
0 0 0
0.6 0 0
0.6
111.3
1983
173.8
4.0 12.0
0 4.6 11.3 12.2 32.4 6.0 0
82.5
0 0
51.6 3.4 2.7 2.1 1.5 28.9
0
90.2
0 0 0
1.1 0 0
1.1
173.8
1984
286.1
6.0 16.4
0 12.6 16.9 9.7 50.5 6.0 0
118.1
0 0
98.1 3.4 2.7 10.5 2.3
44.9 5.0
166.9
0 0 0
1.1 0 0
1.1
286.1
1985
305.6
0 22.5
0 23.9 26.4 9.0
48.0 2.0 0
131.8
0 0
87.3 6.3 3.6
10.5 3.2 53.5 7.0
171.4
0 0 0
2.4 0 0
2.4
305.6
1986
129.3
0 13.5
0 12.3 5.2 5.2
20.1 0 0
56.3
4.4 0
30.4 5.2 2.1 5.0 2.3 9.0 0
58.4
2.0 4.8 0
3.9 3.9 0
14.6
129.3
CAGR 1982-1986
3.8«
(0.3%)
2.1«
N/A
6.2«
N/A = Not Applicable
Source: Dataquest August 1987 Ref: IMPLSHR
62 © 1987 Dataquest Incorporated August SEMS Markets and Technology
Wafer Fab Equipment Data Base
The following is a list of material found in this section:
• Introduction to the Wafer Fab Equipment Data Base
• Wafer Fab Equipment—Summary Data by Category
• Wafer Fab Equipment—Impcwt/E^qxjrt Data
• Wafer Fab Equipment—Company Shares by Categoiy
• Wafer Fab Equipment—Company Rankings
• Wafer Fabrication Equipment Forecast
SEMS Markets and Technology © 1987 Dataquest Incorporated October
Wafer Fab Equipment—Company Rankings
This section of the wafer fab equipment data base presents the ranking of manufacturers of wafer fab equipment by 1986 revenue as shown in Table 1. The Subtotal Fab Equipment total on line 2 of the table is the sum of the revenue of all the companies as listed in the table. This total represents the world market for the following equipment categories: lithography, automatic photoresist processing, dry strip, dry etch, deposition, diffusion, rapid thermal processing, and ion implantation. It represents approximately 75 percent of the total wafer fab equipment market shown on line 1. The difference between the Subtotal Fab Equipment and the World Fab Equipment Market totals represents the other areas of the wafer fab equipment market for which detailed company data are not available. These areas include wet process, ion milling, process control, factory automation, and other equipment.
Table 1 includes only company sales of wafer fab equipment; it does not include company sales of assembly and test equipment. For instance, sales of back-end equipment by General Signal and Advanced Semiconductor Materials are not included. The revenue reported in Table 1 includes only equipment sales, retrofits, and upgrades; it does not include service and spare parts. Thus, the revenue given here may differ somewhat when compared with the revenue reported in the annual reports of the public companies.
More detailed information on some of the companies listed in Table 1 may be found in the Industry Econometrics notebook, which contains approximately 20 company profiles.
SEMS Markets and Technology © 1987 Dataquest Incorporated October
Wafer Fab Equipment—Company Rankings
Table 1
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
World Fab Equipment Market Subtotal Fab Equipment Subtotal Percent
Perkin-Elmer Projection Aligners E-Beam Steppers Dry Etch Molecular Beam Epitaxy Sputtering X-Ray
1982
1,415.8 1,062.2
75.0%
102.0 16.8 17.2 1.0 0.0 14.6
o.o
1983
2,126.8 1,599.4
75.2%
120.0 25.3 18.9 6.6 0.0 13.4 0.0
1984
3,529.5 2,630.7
74.5%
159.0 47.5 21.8 15.6 2.7 12.8 0.0
1985
3,341.3 2,590.4
77.5%
146.0 64.8 22.2 19.5 6.0 10.8 0.0
1986
2,598.2 1,968.1
75.7%
127.0 43.0 27.0 9.2 7.2 6.9 0.0
1986 Rank
1
Total 151.6 184.2 259.4
Canon
269.3 220.3
Projection Aligners Steppers Contact/Proximity Resist Processing Equip.
Tota l
Applied Materials Dry Etch Silicon Epitaxy APCVD PECVD Ion Implantation
20.6 0.0 37.9 0.0
58.5
31.7 26.0 5.0 4.0 2.0
40.7 2.4 31.0 0.0
74.1
46.8 41.1 9.9 4.0 0.0
84.6 12.6 48.6 0.0
145.8
69.0 70.0 11.9 6.2 0.0
127.7 38.8 31.4 0.0
197.9
69.6 44.0 9.9 5.6 0.0
64.0 60.3 14.7 0.5
139.5
73.4 34.3 7.8 4.8 4.4
Total 68.7 101.8 157.1 129.1 124.7
(Continued)
© 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
Varian Sputtering Ion Implantation Molecular Beam Epitaxy Dry Etch LPCVD Rapid Thermal Processing E-Beam
1982
29.4 48.1 7.2 0.0 o.o 0.7 4.3
1983
38.4 61.3 7.3 3.0 o.o 0.8 4.6
1984
59.9 95.4 7.4 15.0 o.o 0.6 2.9
1985
67.0 101.5 9.0 8.0 o.o 0.4
o.o
1986
61.1 33.0 15.1 4.0 1.1 0.4 0,0
1986 Rank
4
Total 89.7 115.4 181.2 185.9 114.7
GCA Steppers Resist Processing Equip. Dry Etch
Total
Nikon Steppers
General Signal Ultratech Steppers
Drytek Dry Etch Dry Strip
Total Drytek
45.8 18.0 OrO
63.8
28.9
12.6
7.0 ILil
7.0
111.3 18.0 OfO
129.3
81.9
23.3
15.0 2.0
17.0
201.2 25.5 0.0
226.7
193.0
63.0
24.0 3.0
27.0
118.0 15.0 1.2
134.2
185.9
50.7
23.0 3.0
26.0
71.4 12.3 2.8
86.5
84.5
38.9
16.0 2.0
18.0
Semiconductor Systems Inc. Resist Processing Equip. 0.4 3.0 13.0 8.8 8.8
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
Tempress LPCVD APCVD
Total Temprei
Circuits Proc. Sputtering
ss
Apparatus
1982
3.6 2.5
6.1
6,Q
19?3
4.9 3.0
7.9
3.0
19?4
5.9 3.6
9.5
3tO
1985
7.6 2.1
9.7
4t5
1986
3.8 2.2
6.0
2,9
1986 Rank
Total General S igna l 32.1 54.2 115.5 99.7 74.6
Ulvac Sputtering Evaporation Ion Implantation Molecular Beam Epitaxy PECVD Dry Etch Metalorganic CVD
2, 12, 8, 0.7 0.5 1.3 0.2
9. 12, 13. 1. 1. 2,
18. 16, 12. 1. 2. 5,
22.5 16.8 12. 3. 2, 5,
.2
.4
.9
.0 _ 0 ^ - 1 ^ jL.a
27.2 22.8 7.5 4.8 3.0 2.9 2.7
Total 25.8 40.1 58.2 64.7 70.9
Eaton Ion Implantation Resist Processing Equip. Steppers Rapid Thermal Processing
37.0 12.0 7.4 o.o
63.6 10.0 23.3 o.o
114.5 14.5 32.0 1.5
109.8 12.0 23.9 1.4
45.9 12.0 2.1 0.7
Total 56.4 96.9 162.5 147.1 60.7
TEL/Thermco Diffusion LPCVD Metalorganic CVD Rapid Thermal Processing
Total
10 20.0 5.0 o.o o.o
25.0
26.0 7.0 1.1 QrO
34.1
47.2 12.8 2.3 0.4
62.7
60.0 15.0 2.3 p.4
77.7
49.0 7.0 3.0 0.4
59.4
(Continued)
© 1987 Dataquest Incorporated October SEMS Markets and Teclinology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Raidced by Worldwide Sales
(NGllions of Dollars)
Thermco Diffusion LPCVD
Total
Anelva Sputtering Dry Etch Molecular Beam Evaporation
Total
Hitachi E-Beam Steppers Dry Etch
Epitaxy
Ion Implantation APCVD
Total
EJEOL E-Beam
Advanced Semiconductor Materials Diffusion LPCVD PECVD
1982
28.8 4.4
33.2
5.3 13.3 0.8 2,8
22.2
0.0 8.2 0.6 2.3 2.0
13.1
14.0
6.9 7.6 12.9
1983
14.2 5r2
19.4
11.5 19.0 1.3 2.1
33.9
o.o 17.1 1.5 3.4 1.3
23.3
18.8
15.0 5.6 29.4
1984
50.0 9,0
59.0
27.6 38.9 2.5 1.4
70.4
5.0 14.5 4.9 3.4 0.
28.4
20.0
10.6 8.3 31.4
1985
58.4 14t5
72.9
31.3 39.5 6.3 0.4
77.5
9.0 17.4 3.6 6.3 0T3
36.6
24.0
9.5 7.8 22.7
1986
43.3 15,5
58.8
21.8 16.2 7.7 2.3
48.0
21.0 8.5 10.8 5.2 0,4
45.9
40.0
8.8 6.3 22.7
1986 Rank
11
12
13
14
15
Total 27.4 50 .0 50 .3 40 .0 37.8
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
1982 1983 1984 1985 1986
Kokusai LPCVD Diffusion Dry Etch S i l i c o n Epitaxy APCVD Rapid Thermal
Total
Dainippon Screen
Processing
Resist Processing Rapid Thermal
Total
BTU/Bruce Diffusion LPCVD
Total
E.T. Electrotech PECVD Dry Etch Sputtering Dry Strip
Total
Tegal Dry Etch Dry Strip
Equip. Processing
9.6 19.3 2.0 11.1 1.4 0,0
43.4
12.4 0.0
12.4
13.2 0.0
13.2
2.7 0.0 2.3 1.0
6.0
13.0 4.5
14.3 22.7 7.3 5.9 1.0 OtO
51.2
19.7 0.0
19.7
24.0 1.2
25.2
4.0 9.4 3.6 2tO
19.0
17.0 $,0
16.8 25.3 11.5 6.3 1.5 O.Q
61.4
40.1 1.2
41.3
35.5 2.3
37.8
6.4 10.3 5.5 1.0
23.2
38.0 8.0
14.5 16.8 10.4 5.0 0.7 0.0
47.4
44.2 1.9
46.1
33.5 3.7
37.2
13.6 8.9 8.7 ItO
32.2
25.0 3.0
16.2 12.0 3.3 2.1 0.7 0,2
34.5
29.8 1.8
31.6
23.7 5.8
29.5
15.3 6.8 5.3 0.0
27.4
25.0 2.0
1986 Rank
16
17
18
19
20
Total 17.5 23.0 46.0 28.0 27.0
(Continued)
© 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
1982 1983 1984 1985 1986
1986 Rank
LAM Research Dry Etch
Silicon Valley Group Resist Processing Equip. Diffusion
1.0
11.0 OtQ
8.0
17.1 0.0
28.0
33.1 0.0
34.0
30.5 Q.O
26.0
25.6 0.3
21
22
Total 11.0 17.1 33.1 30.5 25.9
Tokyo Electron Limited Resist Processing Equip. 6.7 17.2 26.2 24.5 25.6
23
Materials Research Sputtering
VG Instruments Molecular Beam Epitaxy
Plasma-Therm Dry Etch PECVD
Total
Balzers Sputtering Evaporation Ion Implantation
19.0
0.0
9.0 2.3
11.3
4.2 7.4 1.0
21.2
6.3
13.0 4,0
17.0
6.4 5.9 4.0
33.9
9.1
12.0 5,7
17.7
12.2 9.0 6.0
37.7
18.8
13.0 5,6
18.6
10.1 10.4 0.0
24.8
23.7
12.5 5.8
18.3
13.2 5.0 0.0
24
25
26
27
Total 12.6 16.3 27.2 20.5 18.2
Cambridge Instruments E-Beam Metalorganic CVD
8.7 0.2
11.3 1.8
11.7 3.5
11.9 4,1
14.5 2.9
28
Total 8.9 13.1 15.2 16.0 17.4
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
Karl Suss Contact/Proximity X-Ray
Total
Machine Technology Resist Processing Equip. Dry Strip Sputtering
Total
ASM Lithography Steppers E-Beam
Total
Tokyo Ohka Dry Etch Dry Strip
Total
Gasonics Diffusion Dry Strip
1982
7.1 0.0
7.1
7.7 0.0 0.0
7.7
1.2 1.7
2.9
6.4 3.0
9.4
2.9 0.0
1983
11.3 OtO
11.3
7.5 0.0 0.0
7.5
1.3 3.6
4.9
7.4 5.5
12.9
3.7 o.o
1984
17.0 1.0
18.0
20.3 0.0 P.O
20.3
2.8 1.8
4.6
8.9 8.0
16.9
8.4 o.o
1985
17.5 IrO
18.5
17.8 0.3 o.o
18.1
2.8 3.8
6.6
7.6 8.9
16.5
11.7 0.0
1986
16.0
o.o 16.0
12.9 2.0 0.9
15.8
9.8 6.0
15.8
7.2 8.1
15.3
14.0 0.7
1986 Rank
29
30
31
32
33
Total 2.9 3.7 8.4 11.7 14.7
Nissin High Voltage Ion Implantation 4.2 7.3 15.3 27.5 14.4
34
CVC Products Sputtering 5.5 5.5 8.1 9.5 13.5
35
(Continued)
© 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
ISA Riber Molecular Beam
Branson/IPC Dry Strip Dry Etch
Total
Reid-Ashman Resist Process LPCVD Diffusion
Total
Temescal Evaporation Sputtering
Epitaxy
ing Equip.
1982
13.4
7.0 0.0
7.0
1.5 5.5 0.4
7.4
6.4 2.9
1993
20.3
11.0 13,0
24.0
2.7 8.1 0.6
11.4
6.8 1 ^
19?4
23.8
17.0 06tO
23.0
4.5 9.4 Q.6
14.5
6.4 1.8
1985
16.1
14.3 Q3tO
17.3
5.0 12.9 o.o
17.9
10.2 2.1
1986
13.3
9.6 3t0
12.6
6.5 5.3 0.3
12.1
10.5 1.3
1986 Rank
36
37
38
39
Total 9.3 8.9 8.2 12.3 11.8
American Semiconductor Equipment Technologies Steppers 18.1 17.1 10.7 8.4 11.8
40
Genus LPCVD o.o 6.9 17.5 20.5 11.6
41
Gemini Silicon Epitaxy o.o 12.3 30.9 19.4 11.4
42
TEL/Varian Ion Implantation 4.6 13.4 27.4 36.9 10.2
43
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October f
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
AG Associates Rapid Thermal Processing
Pacific Western PECVD APCVD LPCVD Diffusion
Total
Koyo Lindberg Diffusion LPCVD Rapid Thermal Processing APCVD
Total
Anicon LPCVD
Watkins-Johnson APCVD
Leybold-Heraeus Sputtering Evaporation
Total
Tokuda Dry Etch Sputtering
1982
1.5
5.7 1.1 0.0 0.0
6.8
7.2 0.8 o.o Ot4
8.4
o.o
1.8
o.o o.o
o.o
3.5 2.2
1983
2.8
9.3 1.4 o.o i.o
11.7
8.4 1.5 o.o 0.8
10.7
1.1
2.8
i.o o.o
1.0
6.3 3.4
1984
6.1
12.5 1.6 0.3 1.8
16.2
9.7 1.7 o.o 1,5
12.9
16.8
4.8
3.0 o.o
3.0
8.7 5.1
1985
8.8
8.7 1.4 0.4 1,1
11.6
9.6 1.9 o.o o,$
12.1
15.6
5.9
5.0 o,o
5.0
9.6 5.0
1986
9.6
6.9 1.2 0.5 0.6
9.2
6.0 1.8 0.9 Ot4
9.1
8.8
8.1
7.8 o.o
7.8
4.3 3.3
1986 Rank
44
45
46
47
48
49
50
Tota l 5.7 9.7 13.8 14.6 7 . 6
(Continued)
10 © 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
CHA Industries Evaporation Sputtering
1992
4.8 0.3
1983
3.5 0.6
1984
5.7 0.3
1985
7.1 1.0
1986
5.6 0.7
1986 Rank
51
Total 5.1 4.1 6.0 8.1 6.3
Process Technology LPCVD 0.0 1.3 4.4 5.7 6.2
52
Amaya APCVD 5.4 9.4 14.7 10.9 6.0
53
TEL/Lam Dry Etch 1.0 4.5 11.0 11.0 5.4
54
Convac Resist Processing Equip, 1.0 1.5 3.0 3.1 5.3
55
Plasma Systems 56 Dry Strip Dry Etch
Total
Japan Production Engineering PECVD
General lonex Ion Implantation
Nippon Sanso Metalorganic CVD
2.0 Ot6
2.6
2.6
0.0
0.0
3.4 1^
4.7
4.1
0.0
1.1
4.2 1.5
5.7
5.5
0.0
2.3
3.2 1,5
4.7
5.9
0.0
3.6
3.3 1,7
5.0
4.8
4.8
4.6
57
58
59
National Electrostatics Ion Implantation 0.6 1.1 1.1 2.4 3.9
60
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October 11
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
Spire Metalorganic CVD
Tylan Diffusion LPCVD
Total
Ion Tech Sputtering
Crystal Specialties Metalorganic CVD
Veeco Resist Processing Equip. Ion Implantation
Total
Enya PECVD LPCVD
Total
Sumitomo Dry Etch
BTU/Ulvac Diffusion
Emcore Metalorganic CVD
1982
0.0
4.5 1.3
5.8
1.7
0.0
4.8 3.J1
7.8
1.9 1^
3.3
0.0
0.0
0.0
1983
0.0
4.6 1.4
6.0
1.5
0.3
2.4 6.0
8.4
3.8 1 ^
5.6
0.0
0.0
0.0
19?4
0.5
5.5 2.0
7.5
1.6
1.2
3.8 11.0
14.8
5.1 2 ,9
8.0
0.0
1.7
0.0
1985
4.2
4.0 2.3
6.3
2.5
1.8
4.2 9.0
13.2
4.2 1.3
5.5
0.0
4.6
0.1
1986
3.3
2.5 0.7
3.2
3.2
3.0
2.9 OtO
2.9
1.6 1,0
2.6
2.4
. 2.3
2.3
1986 Rank
61
62
63
64
65
66
67
68
69
(Continued)
12 © 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
Seiko Molecular Beam Epitaxy
Rainco Dry Etch
Torrvac Sputtering Evaporation
Total
Sputtered Films Sputtering
Wellman Furnaces Diffusion
Nippon FMC Metalorganic CVD
CVD Equipment Metalorganic CVD
Focus Semiconductor LPCVD
Matrix Dry Strip
1982
0.0
0.0
0.2 0,2
0.4
l.O
1.2
0.6
o.o
o.o
o.o
19?3
o.o
2.1
0.4 0.2
0.6
2.4
0.8
0.6
o.o
o.o
o.o
1984
o.o
3.0
0.4 0.3
0.7
2.0
1.5
0.8
0.2
o.o
O.o
1985
0.8
3.0
2.6 OT3
2.9
l.O
1.4
1.1
0.8
o.o
o.o
1986
2.2
2.0
1.8 0.2
2.0
1.6
1.5
1.5
1.5
1.5
1.5
1986 Rank
70
71
72
73
74
75
76
77
78
EEV Metalorganic CVD o.o o.o o.o l.O
79 1.4
Seiden Metalorganic CVD 0.3 0.9 1.3 0.9
so 1.3
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October 13
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of I oUars)
1982 1983 1984 1985 1986
1986 Rank
Tazmo Resist Processing Equip. 1.0 1.3 1.1 0.6 1.3
81
BIPC Dry Etch
Peak Systems Rapid Thermal Process;
Kurt J. Lesker Sputtering Evaporation
Total
Toshiba Silicon Epitaxy E-Beam
ing
1.8
0.0
0.0 0.0
0.0
2.0 8.0
1.9
0.0
0.1
SL^
0.2
3.4 4.0
2.8
0.0
0.9 Q.2
1.1
2.1 2.5
1.9
0.0
0.8 0.5
1.3
2.3 2.5
1.2
1.2
0.8 0,3
1.1
1.0 0.0
82
83
84
85
Total 10.0 7.4 4.6 4.8 1.0
LEE Dry Strip 2.0 4.0 3.0 2.0 1.0
86
Hohkoh Sangyo Dry Strip 0.0 0.0 0.4 1 .1 1.0
87
Samco Meta lorgau ic CVD 1.0 0.9 1 .1 0.7 1.0
88
Alean Tech Dry S t r i p 0.0 0.0 0.0 0.0 0.9
89
Micronix X-Ray 0.0 0.0 0.8 0.8 0.8
90
(Continued)
14 © 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
1982 1983 1984 1985 1986
1986 Rank
AET Rapid Thermal Processing 0.1 0.3 0.4 0.4 0.7
91
Thomas Schwonn Metalorganic CVD 0.0 0.2 1.0 1.2 0.6
92
Denki Diffusion 0.5 0.5 1.1 0.6 0.6
93
Aixtron Metalorganic CVD 0.0 0.0 0.0 0.5 0.6
94
Helmut Seier Diffusion
Shimada Silicon Epitaxy
0.0
0.8
0.0
2.1
0.1
2.5
0.8
0.8
0.5
0.5
95
96
Process Products Rapid Thermal Processing 0.0 0.0 0.0 0.5 0.5
97
Spectrum CVD LPCVD 0.0 0.0 0.0 0.0 0.5
98
CVT Metalorganic CVD 0.0 0.4 0.5 0.7 0.4
99
Denton Vacuum Sputtering Evaporation
0.0 0.0
0.0 0.0
0.0 0.0
0.1
(La
100 0.1 0.2
Total 0.0 0.0 0.0 0.2 0.3
Centrotherm Diffusion 0.3 0.1 0.2 0.2
101 0.2
(Continued)
SEMS Markets and Technology © 1987 Dataquest Incorporated October 15
Wafer Fab Equipment—Company Rankings
Table 1 (Continued)
Semiconductor Wafer Fab Equipment Companies Ranked by Worldwide Sales
(Millions of Dollars)
1982 1983 1984 198? 1986
1986 Rank
Sinko Seiko LPCVD 0.2 0.2 0.0 0.0
N/A 0.0
Epitaxy Inc. Silicon Epitaxy JLsJl 0.0 0.0 0.0
N/A 0.0
Subtotal Fab Equipment 1,062.2 1,599.4 2,630.7 2,590.4 1,968.1
N/A = Not Appropriate
Source: Dataguest October 1987 Ref: COMRANK
COMPIVNY RANKINGS
While the data in Table 1 are self-explanatory, a few interesting observations can be made.
Table 1 lists 103 companies that manufacture the following equipment: lithography, automatic photoresist processing, dry strip, dry etch, deposition, diffusion, rapid thermal processing, and ion implantation (defined here as Subtotal Fab Equipment). However, as Table 2 shows, in 1986 the top 10 companies provided 52.6 percent of the world requirement for these categories of equipment. Similarly, the top 20 companies provided almost 72 percent of this equipment, with the bottom 73 companies accounting for only 17.3 percent of this market. Clearly, the market for the critical equipment used in semiconductor processing is dominated by relatively few companies, considering the total number of companies that participate in this market. Table 3 shows that for the 103 companies listed in Table 1, 48 or 46.6 percent have revenue of less than $5 million, while nearly 78 percent of the companies have revenue of less than $25 million. Although there are a few dominant companies, there are many more small companies participating in the industry.
16 © 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 2
Worldwide Revenue of Ranked Companies in Key Equipment Areas (Millions of Dollars)
Companies by Rank
1-10 11-20 21-30 31-103
1986 Revenue (M$)
$1,035.8 380.5 211.7 340.1
$1,968.1
Percent of Subtotal Fab
Source:
Equipment
52.6% 19.3 10.8 17.3
100.OV
Dataguest October 1987
Table 3
Revenue Breakdown of Wafer Fab Equipment Companies (Millions of Dollars)
0 to $5 $5 to $10 $10 to $25 $25 to $50 $50 to $100 $100 to $200 $200 +
Number of Companies
48 12 20 12 7 3 1
Percent of Companies
46.6% 11.7 19.4 11.7 6.8 2.9 1.0
Cumulative Percent
46.6% 58.3% 77.7% 89.4% 96.2% 99.1% 100.0%
103 100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataguest October 1987
SEMS Markets and Technology © 1987 Dataquest Incorporated October 17
Wafer Fab Equipment—Company Rankings
Table 4 shows the top 10 wafer fab equipment companies ranked by 1985 and 1986 revenue. In 1986, the top 10 companies accounted for $1,035.8 million compared with $1,491.5 million in 1985, a decline of 30.6 percent. In contrast, the world wafer fab equipment market went from $3,341.3 million in 1985 to $2,598.2 million in 1986, a decline of 22.2 percent. Thus, the revenue of the top 10 companies declined substantially more than the total market. Table 3 shows that Eaton and Nikon experienced declines in excess of 50 percent. Only one company, Ulvac, showed an increase in 1986 sales, although Applied Materials' sales were off by only 3.4 percent.
The top 10 companies accounted for 44.6 percent of the total wafer fab equipment market in 1985, but they accounted for only 39.9 percent in 1986. Even though the revenue of the top 10 companies declined substantially more than the market in 1986, 9 of the top 10 in 1985 are still in the 1986 top 10. Anelva, which was on the 1985 list, was displaced by Ulvac in 1986. Note that only Applied Materials, GCA, and TEL/Thermco are purely semiconductor equipment market participants; the other companies in the top 10 participate in other businesses as well.
Table 4
Top 10 Wafer Fab Equipment Companies
1986 Rank
1 2 3 4 5 6 7 8 9 10
1985 Rank
1 2 7 3 6 3 8 12 5 9
Total Top
Company
Perkin-Elmer Canon Applied Materials Varian GCA Nikon General Signal Ulvac Eaton TEL/Thermco
10
World Wafer Fab Equipment Market
Percent Top 10 Companies Provide of World Fab Equipment Market
1986 Revenue (M$)
$ 220.3 139.5 124.7 114.7 86.5 84.5 74.6 70.9 60.7 59.4
$1,035.8
$2,598.2
39.9%
1985 Revenue (M$)
$ 269.3 197.9 129.1 185.9 134.2 185.9 99.7 64.7 147.1 77.7
$1,491.5
$3,341.3
44.6%
Percent Change
(18.2%) (29.5%) (3.4%) (38.3%) (35.5%) (54.5%) (25.2%) 9.6%
(58.7%) (23.6%)
(30.6%)
(22.2%)
Source; Dataquest October 1987
18 © 1987 Dataquest Incorporated October SEMS Markets and Technology
Wafer Fab Equipment—Company Rankings
Table 5 presents the combined market share of the top 10 equipment companies by equipment category. It is evident that the top 10 have high market share in several categories. For instance, in 1985 the top 10 provided 89 percent of the world's lithography equipment but their share dropped to 81 percent in 1986 because of the increase in company revenue for direct-write E-beam equipment manufactured by companies not in the top 10. Ion implantation is another area where the top 10 dominate. In 1985, they had a 73 percent share of the world market and in 1986 a 70 percent share. In the equipment data base, TEL/Varian is considered a separate company, but if TEL/Varian implanter revenue is included in Varian's sales, then the top 10 companies provided 85 and 78 percent of the 1985 and 1986 world implanter market, respectively.
Table 5
Market Share by Equipment Category for the Top 10
1985 1986
Lithography Resist Processing Equipment Dry Strip Dry Etch Chemical Vapor Deposition Physical Vapor Deposition Silicon Epitaxy Meta lorgan ic CVD Molecular Beam Epitaxy Diffusion Rapid Thermal Processing Ion Implantation
Source;
89% 22% 0
42% 19% 45% 62% 17% 30% 28% 16% 73%
81% 34% 0
46% 16% 49% 70% 19% 37% 30% 9% 70%
Dataguest October 1987
In areas where equipment and process technology is just emerging, such as metalorganic CVD, rapid thermal processing, and the newer dry strip technologies, the top 10 have little presence; it is the smaller, start-up companies that are developing the equipment in these areas. Surprisingly, the top 10 have low market share in the key process area of chemical vapor deposition. However, CVD process and equipment technology is rapidly changing from the more traditional methods, and several of the top 10 have introduced new-generation CVD equipment. Their market share in CVD should increase in the future, although there are several start-ups active in this area as well.
SEMS Markets and Technology © 1987 Dataquest Incorporated October 19
Wafer Fab Equipment—Company Rankings
(Page intentionally left blank)
20 © 1987 Dataquest Incorporated October SEMS Markets and Teclinology
Silicon and Epitaxial Wafer Markets
SUMMARY
In 1985, silicon and epitaxial wafer sales to the worldwide semiconductor industry by merchant silicon companies was $1,266.5 million. Silicon wafers accounted for $1,020.9 million (80.6 percent) of this figure, and epitaxial wafer sales accounted for $245.6 million (19.4 percent). These sales represented 1,038 million square inches of silicon wafers and 85 million square inches of epitaxial wafers. The average selling price of silicon wafers ranged from $0.90 to $1.00 per square inch as compared with $2.80 to $2.90 per square inch for epitaxial wafers. Several semiconductor manufacturers have captive production of silicon material, which accounted for an additional 177 million square inches of silicon that year. When merchant wafer sales are added to captive silicon production, total silicon consumption amounted to 1,300 million square inches in 1985.
Table 1 summarizes worldwide silicon and epitaxial wafer sales (and market share) for the top six merchant silicon companies in 1985. The market is strongly dominated by four Japan-based silicon companies, Monsanto of the United States, and Wacker of West Germany.
Table 1
WORLDWIDE MERCHANT SILICON COMPANY MARKET SHARE, 1985 (Millions of Dollars)
Company
Shin-Etsu Handotai Wacker Osaka Titanium Company Monsanto Japan Silicon Komatsu Electronic Metals Others
Silicon and Epitaxial Wafer Sales
$ 310.0 205.0 160.0 137.0 128.0 116.0 210.5
Percent Share
24.5% 16.2 12.6 10.8 10.1 9.2 16.6
Total $1,266.5 100.0%
Source: Dataquest February 1987
SEMS Markets and Technology © 1987 Dataquest Incorporated February
Silicon and Epitaxial Wafer Markets
INTRODUCTION
This study is Dataquest's analysis of the worldwide silicon and epitaxial wafer markets. It presents an overview of merchant silicon company products, market focus, and manufacturing activities. Market share for merchant silicon companies is tabulated by region of silicon and epitaxial wafer sales in 1985. The sales of these companies are estimated in U.S. dollars and converted to millions of square inches using an average selling price for each region. Captive silicon production is included in Dataquest's estimate of worldwide silicon consumption. Historical and forecast semiconductor device production revenue and silicon consumption are summarized by region. The study also presents Dataquest's historical and forecast wafer size distribution for the United States. Please note that the regional designation "United States" includes Canadian semiconductor manufacturing activities.
Definitions and Conventions
Silicon Producers
Dataquest defines companies that produce silicon and epitaxial wafers as either merchant silicon companies or captive silicon producers. Merchant silicon companies are suppliers such as Monsanto Electronic Materials Company in the United States, Shin-Etsu Handotai (also known as SEH) in Japan, and Wacker in Western Europe. These three merchant silicon companies, along with about 20 more companies worldwide, produce most of the silicon consumed by the semiconductor industry today. The name Monsanto is used throughout this study to represent Monsanto Electronic Materials Company, unless otherwise noted.
Silicon is also produced to a lesser extent by both merchant and captive semiconductor manufacturers. Dataquest refers to these semiconductor manufacturers collectively as captive silicon producers because they grow single-crystal silicon to produce wafers for their own internal consumption. Captive producers with significant internal silicon production include AT&T, IBM, Motorola, and Texas Instriiments in the United States, Philips in Europe, and Hitachi in Japan. Dataquest estimates that the U.S. captive silicon producers meet from 50 to 75 percent of their silicon requirements with captive silicon operations, whereas this amount is approximately 30 percent for Hitachi and Philips.
Semiconductor manufacturers with captive silicon production tend to be established, vertically integrated companies. In the early years of the semiconductor industry, the high cost of silicon provided sufficient economic justification for some semiconductor manufacturers to develop this internal capability. However, high-quality, low-cost silicon wafers have become readily available from a number of merchant silicon
© 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
companies, and in response to such competitive factors, some semiconductor manufacturers have shut down their silicon operations. Fairchild closed its silicon wafer plant in Healdsburg, California, in June 1985, and later sold its silicon production equipment to Pentagood Training, Ltd., a Hong Kong firm, for $3.5 million. This equipment, in turn, was sold to the People's Republic of China. Delco, another semiconductor manufacturer with internal silicon production, discontinued its captive silicon operations in the spring of 1986. Although Motorola continues to produce single-crystal silicon, the company closed its polysilicon facility in the fall of 1986. Dataquest believes that this 100-metric-ton plant has not as yet been sold.
Merchant or Captive? - Some captive silicon producers, such as Motorola and Fairchild (when it was actively producing silicon), have sold small amounts of material on the merchant silicon market. Dataquest estimates that merchant sales for these companies in 1985 amounted to less than 10 percent of their total captive silicon production, and thus continues to identify these companies as captive rather than merchant silicon producers.
Dataquest identifies Toshiba Ceramics, a subsidiary of Toshiba Corporation, as a merchant silicon company even though a substantial amount of its silicon production is consumed by its semiconductor parent. However, because Toshiba Ceramics is actively marketing its material on the merchant market, Dataquest considers Toshiba Ceramics to be a merchant rather than a captive silicon producer. Toshiba Corporation is considered to be a customer of Toshiba Ceramics.
Silicon Products
Dataquest defines the merchant silicon wafer market in two product segments: silicon wafers and silicon epitaxial wafers. (Silicon wafers grown by both Czochralski and float zone methods are included.) In the silicon and epitaxial wafer markets analysis, Dataquest does not include sales of polysilicon, single-crystal silicon ingots, silicon materials used in solar applications, or compound semiconductor material substrates such as gallium arsenide.
Several different units are used to describe silicon wafers, including million square inches (MSI), million square centimeters, and wafer or slice equivalents. For the purpose of comparison, all silicon and epitaxial wafer quantities in this study will be defined in units of MSI. The conversion factor between square centimeters and square indhes is 6.45 square centimeters per square inch. Wafer or slice equivalents can be translated into MSI by multiplying the number of wafers of a given size by the area of that wafer size as measured in square inches. As an example, 150,000 100mm equivalents are equal to 1.83 MSI.
SEMS Markets and Technology © 1987 Dataquest Incorporated February
Silicon and Epitaxial Wafer Markets
Although polysilicon production is not a topic of this study, several merchant silicon companies produce polysilicon in addition to single-crystal silicon ingots and wafers. Information regarding poly plant locations and capacities for these companies is included in the merchant silicon company profiles.
SILICON AMD EPITAXIAL WAFERS
Silicon Wafers
In the early days of the semiconductor industry, silicon was considered to be one of several materials with semiconductor potential. With the development of planar processing in 1960, polysilicon price reductions, and inexpensive plastic packaging for silicon transistors, silicon took the market from germanium as the basic element used to manufacture semiconductor devices. The history of silicon manufacturing in the United States, and the technology of single crystal growth and wafer production can be found in two service sections located behind the Wafer Fabrication Materials tab in this binder. These sections are entitled "Silicon History" and "Silicon Technology."
Bpiha arjal Wafers
Epitaxial processing produces a layer of single-crystal material that has the same crystallographic orientation as the underlying substrate. It is possible to design the epitaxial layer to meet well-defined chemical, physical, and electrical specifications. The epitaxial layer of material is produced by a chemical vapor phase deposition reaction upon a polished substrate, which also has been manufactured to tightly controlled specifications. The epitaxial layer is typically the electrically active layer of transistors, diodes, and other discrete devices. Epi layers are an important part of bipolar device fabrication, and are used for isolation and buried layers. Epi is also increasingly being utilized in MOS integrated circuits.
CMOS Epi
An area where epitaxy has become important is in CMOS device fabrication. CMOS circuits are especially vulnerable to a condition known as latch-up. In CMOS construction, n-type and p-type wells are in sufficiently close proximity to create parasitic n-p-n-p (silicon-controlled rectifier type) switching structures. Latch-up occurs when such parasitic devices turn on due to a transient condition such as
1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
forward biasing produced by a voltage spike. In latch-up, the CMOS device presents a near short-circuit condition across the power supply. The adverse effects of this can range from the interruption of further circuit operation until the condition is removed to physical destruction of the chip. With CMOS design rules approaching the 1 micron regime and gate oxide thicknesses approaching 100 angstroms, latch-up becomes more of a problem. High-resistivity epi layers on low-resistivity substrates is now used as a technique for latch-up hardening (prevention).
Although CMOS epi has been touted as a solution to the problem of latch-up, most semiconductor manufacturers have found the additional cost of an epitaxial wafer (typically 2.5 to 3.0 times the cost of a silicon wafer) prohibitive. To meet the market prices of low-end products, a manufacturer using epi material would have to give up considerable margin and hence profitability. This may be one of the reasons that Texas Instruments reportedly began its 256K DRAM production on epitaxial wafers and later converted to a non-epi process. Although it has been reported that AT&T and IBM have shown new designs in CMOS epi, Japanese semiconductor manufacturers continue to design without epi for their advanced CMOS devices. Dataguest estimates that epitaxial wafer consiunption in Japan by application is approximately 60 percent for discrete devices, 35 percent for bipolar ICs, and 5 percent for MOS integrated circuits.
Kpifra giai Services—Japanese Style
Semiconductor manufacturers in the United States have three sources of epitaxial silicon wafers: larger merchant silicon companies (such as Monsanto, SEH America, and Wacker), small custom epitaxial houses, or internal epitaxial wafer production. Japan has no equivalent to the United States' small custom epitaxial houses, so Japanese silicon companies have taken on the responsibility for providing custom epitaxial wafer specifications. For example, in the case of buried layers for bipolar IC applications, a Japanese silicon wafer company will obtain the photomask from a customer and perform the lithography, selective diffusion, and deposition of the epitaxial layer. This "fabricated" epitaxial wafer with its buried layer is then returned to the customer. This allows the Japanese semiconductor manufacturer to minimize investment in equipment and processes, and instead devote resources to design and new process development. Dataquest believes that the practice of providing photomasks to silicon manufacturers for buried layer processing is far more prevalent in Japan than in the United States because of the close relationship between vendor and customer in Japan.
SEMS Markets and Technology © 1987 Dataquest Incorporated February
Silicon and Epitaxial Wafer Markets
WORLDWIDE MERCHANT SILICON MARKET
Table 2 contains a list of merchant silicon manufacturers that were active in the world market in 1985. This list, organized by region in which the company headquarters are based, summarizes whether a company offers silicon and/or epitaxial wafers. Fifteen of the 23 companies are located in the United States, 3 in Europe, and 5 in Japan. (The acquisition by Japanese manufacturers of U.S. silicon companies NEK, Siltec, and U.S. Semiconductor will be discussed in a later section.) -Fourteen manufacturers supply epitaxial wafers, 16 supply silicon wafers, and 7 provide both types of wafers. (Dynamit Nobel began manufacturing epitaxial wafers in late 1986, so is not included in the count of epitaxial wafer suppliers for 1985.) Table 2 also includes five new merchant silicon companies that entered the market in 1986/1987; two are located in Japan, two in Europe, and one in Korea.
Table 2 shows the percentage of silicon substrate material (based on square inches) each company produces internally and the percentage purchased from other silicon vendors. This is an important distinction since several United States-based epitaxial wafer manufacturers purchase some or all of their silicon substrate from other companies. For example, in 1985, Cincinnati-Milacron, an epitaxial silicon wafer company, internally produced 60 percent of its silicon substrate and purchased 40 percent from other merchant silicon companies. This practice must be noted when evaluating total wafer consumption because of the potential problem of double-counting million square inches of silicon based on company sales alone.
Two U.S. captive silicon companies, Fairchild and Motorola, also sold a small amount of their internally produced wafers on the merchant market in 1985. Dataquest estimates that Fairchild's merchant silicon wafer sales were approximately $0.2 million, whereas Motorola's Semiconductor Materials Group sold approximately $2.1 million of silicon and epitaxial wafers. Both companies have sold material on the merchant market in order to ensure that internal production methods continue to produce material of competitive quality and cost. Although these companies are not listed in Table 2, their sales have been included as part of the total United States-based silicon manufacturers' sales during 1985 that are presented in the next section. (Note: As mentioned previously, Fairchild closed its silicon operations in June 1985.)
1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 2
HOSIDWIDE MERCHANT SILICON COMPANIES
U.S. Companies Cincinnati Mi lacron Crysteco, Inc. Epitaxy, Inc. General Instriunents Power Semiconductor Div. Gensil M/A-Com Monsanto Electronic Materials Company NBK Co rpo r a t ion Pensilco Recticon Silicon Services Siltec Spire Corporation U.S. Semiconductor Virginia Semiconductor
Japanese Companies Japan Silicon Komatsu Electronic Metals Osaka Titanium Company Shin-Etsu Handotai Toshiba Ceramics
Substrate Grown
60% 100% 0
0 100% 50%
100% 100% 100% 100% 0
100% 0 0
100%
100% 100% 100% 100% 100%
Substrate Purchased
40% 0
100%
100% 0
50%
0 0 0 0
100% 0
100% 100% 0
0 0 0 0 0
Silicon Epitaxial Wafers Wafers
X X
X
X X
X
X X X X X
X X
X X X X X
X X X X X
European Companies Dynamit Nobel Silicon Tops i l Semiconductor Materials A/S Wacker
100%
100% 100%
0 0
X X
(X-1986)
X
New Entrants—1986 Lucky Advanced Materials (Korea) Nittetsu Denshi (Japan) Okmetic (Finland) Rhone-Siltec (France) Showa Denko (Japan)
100% 100% 100% 100% 100%
0 0
0 0
X X
(X-1987) X X
Source; Dataquest February 1987
SEMS Markets and Technology © 1987 Dataquest Incorporated February
Silicon and Epitaxial Wafer Markets
Tables 3, 4, and 5 present the combined and separate sales of silicon and epitaxial wafers by regionally based merchant companies to given regions of the world. For example, in tJiese tables, Shin-Etsu Handotai's worldwide sales, which include the sales of Shin-Etsu's U.S. s\ibsidiary, SEH America, are included under the heading "Japan-Based Companies." Similarly, the worldwide sales of Europe-based Wacker Chemitronic include the sales of its U.S. affiliate, Wacker Siltronic. The activities of each of the regionally based merchant silicon companies are discussed in the sections to follow. Market share analysis for silicon and epitaxial wafer sales in each of the four regions of the world are presented in a later section.
Table 3
HORIJ)WIDE MERCHANT SILICON AND EPITAXIAL WAFER MARKET, 1985 (Millions of Dollars)
Region of Sales
United States Japan Europe Rest of World
Total
Percent
United States-Based
Company Sales
$216.3 7.9 18.8 12.7
$255.7
20.2%
Japan-Based Company Sales
$ 84.9 632.1 10.4 26.6
$754.0
59.5%
Europe-Based Company Sales Total
$ 86.7 8.6
130.0 31.5
$256.8
20.3%
Source:
$ 387.9 648.6 159.2 70.8
$1,266.5
100.0%
Dataquest February 1987
© 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 4
WORLDWIDE MERCHANT SILICON WAFER MARKET, 1985 (Millions of Dollars)
Region of Sales
United States Japan Europe Rest of World
Total
Percent
United States-Based
Company Sales
$150.5 7.7 13.2 7.7
$179.1
17.5%
Japan-Based Company Sales
$ 74.6 502.6 8.1 22.7
$608.0
59.6%
Europe-Based Company Sales Total
$ 79.4 8.1
116.0 30.3
$233.8
22.9%
Source:
$ 304.5 518.4 137.3 60.7
$1,020.9
100.0%
Dataguest February 1987
Table 5
WORLDWIDE MERCHANT EPITAXIAL WAFER MARKET, 1985 (Millions of Dollars)
Region of S^l^s
United States Japan Europe Rest of World
Total
Percent
United States-Based
Company Sales
$65.8 0.2 5.6 5.0
$76.6
31.2%
Japan-Based Company Sales
$ 10.3 129.5 2.3 3.9
$146.0
59.4%
Europe-Based Company Sales
$ 7.3 0.5 14.0 1.2
$23.0
9.4%
Source;
Total
$ 83.4 130.2 21.9 10.1
$245.6
100.0%
Dataguest February 1987
SEMS Markets and Technology 1987 Dataguest Incorporated February
Silicon and Epitaxial Wafer Markets
MERCHAMT SILICON COMPANY ACTIVITIES
United States Silicon CompaTiios
Fifteen United States-based merchant silicon companies (and two captive silicon producers) supplied the semiconductor industry with wafers in 1985. These manufacturers accounted for $255.7 million in silicon and epitaxial wafer sales, or 20.2 percent of the world's $1,266.5 million silicon and epitaxial wafer market in 1985. Three of the fifteen merchants account for almost 80 percent of the United States-based silicon and epitaxial wafer manufacturers' sales; these are Monsanto, Cincinnati Milacron, and Siltec. The remaining 12 companies are of two categories; small silicon wafer manufacturers and small custom epitaxial houses. (Note: Monsanto is the only United States-based silicon manufacturer to supply both silicon and epitaxial wafers to the semiconductor industry.) In particular, these smaller silicon and epitaxial houses are pursuing niche markets by providing relatively small quantities of material that meet customers' specific requirements. The smaller companies, for the most part, have chosen not to compete with the larger silicon companies for commodity wafer sales.
Cincinnati Milacron
Cincinnati Milacron is the largest epitaxial wafer supplier in the United States, with epi wafer sales of approximately $42 million in 1985. Cincinnati Milacron's manufacturing facility is in Maineville, Ohio. Dataquest estimates that approximately 70 percent of the company's epi business is for discrete semiconductor devices, with the remaining 30 percent directed at CMOS applications. Cincinnati Milacron builds its own epitaxial reactors, which are not for sale on the commercial epitaxial reactor market. In 1985, the Maineville manufacturing facility was expanded. It now has production capacity to generate $125 million in epitaxial wafer sales per year. The company is also a major manufacturer of processing systems for the metalworking and plastics industries. It also builds robots and metrology and inspection systems for industrial automation applications. In 1985, total sales for the company and its subsidiaries were $732.2 million.
Crysteco. Inc.
Crysteco, Inc., of Wilmington, Ohio, supplies silicon wafers to the semiconductor industry. The company grows 100 percent of its substr'ate material. All material grown is Czochralski silicon, though Dataquest believes that Crysteco provides some slice and polish services for float zone ingots. Dataquest's estimate for Crysteco's wafer sales in 1985 is $9 million, which places Crysteco as the third-largest United States-based supplier of silicon wafers (after Monsanto and Siltec).
10 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Rpil^a-^Yf Inc.
Epitaxy, Inc., is an epitaxial wafer company in Santa Clara, California; the company was established in 1972. Dataquest estimates that Epitaxy, Inc., had epitaxial wafer sales of about $6 million in 1985, of which 55 percent was outside of the United States. Epitaxy, Inc., does not grow any substrate material, but rather purchases it from other merchant silicon manufacturers. Like the other small custom epi houses, it is pursuing niche market applications and has opted not to compete in the CMOS epi wafer market.
General Instruments—Power Semiconductor Division
The Power Semiconductor Division of General Instruments (Westbury, New York) manufactures epitaxial wafers. Most of its epi wafers are used in-house, but a small number are sold on the merchant market. Dataguest estimates that the Power Semiconductor Division sold approximately $2.5 million worth of epitaxial wafers in 1985. Major applications for its epitaxial wafers include microwave and radio frequency (RF) discrete devices.
Gens11
Gensil is a small silicon wafer company located in Garland, Texas. It manufactures silicon wafers to custom specifications for discrete device applications (such as zener diodes, which require tight resistivity profiles), and provides silicon substrate suitable for epitaxial deposition. Wafers are available from 1 inch to 100mm diameter. Gensil is owned by General Semiconductor Industries, a Tempe, Arizona, semiconductor device company that manufactures discrete devices such as diodes, and switching and power transistors. Dataquest estimates that Gensil's 1985 worldwide silicon wafer sales were $2.5 million. Approximately 50 percent of Gensil's wafers are sold to its parent company.
M/A-COM
M/A-Com Semiconductor Products (Burlington, Massachusetts) produces epitaxial silicon wafers for the semiconductor industry. It offers epi wafers up to 125mm diameter. These wafers are used in a wide range of device products including MOS (including DRAMs and MOSFETs), linear and digital ICs, RF power transistors, Schottky rectifiers, microwave diodes, transistors, and photovoltaic devices.
In 1985, M/A-COM produced 50 percent of its silicon substrate wafer material, and purchased 50 percent from other companies. In 1986, however, M/A-COM decided to curtail its single crystal growth operations and purchase all of its silicon substrate. Dataquest estimates that M/A-COM's 1985 worldwide epitaxial wafer sales were $6.0 million.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 11
Silicon and Epitaxial Wafer Markets
MnTis Tit;n Electronic Materials CompaTiy
Monsanto Electronic Materials Company (headquartered in Palo Alto, California) is the largest United States-based silicon company, with silicon and epitaxial wafer sales of $137 million in 1985, or 10.8 percent of the $1,266.5 million world market. Monsanto Electronic Materials Company is one of the operating groups of the Monsanto Company, a St. Louis-based chemical giant with sales of $6.75 billion in 1985. (Please note that the name Monsanto is used throughout this study to -represent Monsanto Electronic Materials Company, unless otherwise noted.) Table 6 summarizes Monsanto's silicon facilities and plant activities. In Table 6, polysilicon refers to the location of a polysilicon plant; single-crystal ingot refers to the growth of silicon ingots at a given location; and wafers refers to the slicing, lapping, and polishing activities associated with wafer preparation.
Monsanto's polysilicon and single crystal operations are United States-based. Polysilicon capacity (as of January 1987) is approximately 210 metric tons at the Saint Peters plant. Both the Saint Peters plant and the newer Spartanburg facility grow single-crystal silicon ingots and produce wafers; epitaxial wafer production is done in Spartanburg. Wafer capacity at Monsanto's U.S. facilities is approximately 325 MSI. Monsanto's overseas facilities obtain single-crystal silicon from the U.S. plants to produce wafers for their respective local markets.
Three new offshore wafer facilities, in Korea, Japan, and the United Kingdom, became operational in 1986. Each new plant has a 20 MSI wafer capacity, which can be expanded for future requirements. This offshore wafer manufacturing is part of Monsanto's strategy to better penetrate overseas markets.
Table 6
MONSANTO ELECTRONIC MATERIALS COMPANY SILICON PLANT LOCATIONS
Single-Crystal Technical
Location Country Polysilicon Ingots Wafers Center
Saint Peters, Missouri United States X X X X Spartanburg, South Carolina United States X X Kuala Lumpur Malaysia X Gumi South Korea X Utsonomiya, Tochigi Japan X X Milton Keynes United Kingdom X X
Source: Dataquest February 1987
12 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Korean Activities - In Korea, Monsanto's manufacturing facility for silicon wafers is at Gumi, adjacent to the country's developing semiconductor industry. The silicon facility, a 50-50 joint venture between Monsanto and Dongbu Industrial Company, is named Korsil Co., Ltd. Other Monsanto activities in Korea include an agreement with Samsung to increase silicon wafer sales to Samsung in the latter half of 1986. Monsanto has been working with Samsung engineers to customize wafer specifications to Samsung's processing requirements.
•TapaTiftse Activities - Monsanto and Hitachi announced an agreement in July 1986 for a cooperative program in which Monsanto would begin to supply wafers to Hitachi. Both companies would work together to customize the wafers to Hitachi's specific requirements. This agreement represents the first volume sales of Monsanto wafers to Hitachi; prior to April 1986, the company had supplied only test wafers. Dataquest believes that this is a significant move toward opening up the Japanese silicon market to foreign companies. Dataquest estimates that foreign silicon company wafer market share was approximately 2.5 percent of 1985's $648.6 million merchant silicon sales in Japan. However, with the political pressures of trade imbalance between the United States and Japan, U.S. government officials have urged Japan to buy more wafers from the United States. Dataquest expects that the Japanese government will respond favorably, and foreign-based silicon company market share in Japan will increase, albeit slowly, over the next few years.
MBK Corporation
NBK Corporation (Santa Clara, California) is a small silicon wafer manufacturer located in the Silicon Valley. Although NBK does not produce epitaxial wafers directly, the company supplies a small amount to customers through subcontractors. NBK was purchased by Kawasaki Steel for $9.36 million in the third quarter of 1985. The acquisition is part of the Japanese steelmaker's strategy for diversification into electronic materials. Kawasaki Steel invested $8.3 million in NBK in 1986 to upgrade to 150mm capability and improve silicon wafer quality control with a class 10 clean room environment; as a result, an incremental amount of capacity was added, on the order of 10 to 15 percent. Dataquest estimates that NBK's wafer sales in 1985 were $7 million, of which more than 95 percent were in the United States.
In 1986, Kawasaki Steel sent samples of NBK's wafers to Japanese semiconductor manufacturers. Dataquest expects that with Kawasaki Steel's backing, NBK's wafer sales to Japan will increase as a percent of total sales.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 13
Silicon and Epitaxial Wafer Markets
PensilCO
Pensilco is a small silicon wafer manufacturer in Bradford, Pennsylvania. It specializes in small-diameter wafers, which range from 1 inch to 100mm in diameter. It provides customized silicon wafers, especially for zener diode fabrication. The company started its silicon operations in 1958 under the name of Allegheny Electronics; the Pensilco name was adopted in 1976. Dataguest estimates that Pensilco's worldwide silicon wafer sales were $3.3 million in 1985.
Recticon
Recticon is a small merchant silicon company in Pottstown, Pennsylvania. Dataguest estimates that Recticon's 1985 worldwide silicon wafer sales were $5.0 million. Rockwell International sold Recticon to Walker International in the first guarter of 1986. (Walker plans to use the acguisition to move out of its traditional business, photo processing.) Recticon has established a niche business supplying very thin and smaller-size wafers, but currently can produce from 1-inch to 125mm diameter wafers. In addition, Recticon specializes in growing single-crystal silicon with unusual crystal orientations. At the Semicon Southwest show in Dallas (October 1986), Recticon displayed a single-crystal ingot of 2-1-1 orientation. Recticon has attracted interest from semiconductor R&D groups that want to use silicon wafers with this orientation as a substrate for gallixun arsenide-on-silicon processing.
Silicon Services
Silicon Services (Santa Clara, California) is a small, epitaxial wafer supplier in the Silicon Valley. Its primary product is epitaxial wafers for power transistors; other application markets include epitaxial wafers for bipolar processing and a small amount of CMOS. Silicon Services does not grow its substrate material. Instead, it purchases from other merchant silicon companies or obtains the material directly from its customers (as in the case of bipolar applications where the customer has already prepared a buried layer, followed by ion implantation). Silicon Services supplies epitaxial wafers between 2 inches and 125mm. Dataguest estimates that Silicon Services' epitaxial wafer sales were $1.0 million in 1985.
Siltec
Siltec Silicon is a merchant silicon wafer company with manufacturing facilities in Salem, Oregon. Dataguest estimates that its 1985 worldwide silicon wafer sales were $24.8 million. In mid-1985, Siltec's silicon production facilities were relocated and consolidated in Salem from operations in Menlo Park and Mountain View, California. Siltec Silicon is one of two business units that make up Siltec Corporation,
14 © 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
headquartered in Menlo Park, California. (Siltec Corporation's second business unit is Cybeq Systems, which manufactures production, transport, and test equipment used in silicon production operations.) Siltec has polished wafer capacity of 70 MSI per year. The company was founded in 1969 by Robert Lorenzini, a recognized pioneer in the field of crystal growing.
Overseas Activities - Over the past several years, Siltec expanded its activities overseas through joint venture and technology licensing strategies. In 1984, Siltec entered into an agreement with Rhone-Poulenc of France to manufacture silicon wafers in France for distribution to semiconductor manufacturers in Western Europe. The joint venture, Rhone-Siltec, began pilot production in September 1985 at a facility near Mantes-la-Jolie (100 kilometers west of Paris.) Rhone-Siltec has single crystal growth and polished wafer operations; current wafer capacity is approximately 20 MSI.
In October 1985, Siltec announced the licensing of its silicon technology to Lucky Advanced Materials of Korea, an affiliate of the Lucky-Goldstar group. Lucky Advanced Materials agreed to pay Siltec $4 million plus royalties for the technology. The Lucky Advanced Materials silicon facility is in Gumi and started production in February 1987. Wafer capacity at this facility is on the order of 20 MSI. The Lucky Advanced Materials plant is the only facility in Korea that has single crystal silicon growth and wafer production operations.
Siltec announced plans in mid-1985 to form a joint venture with Toyo Soda Manufacturing Co. of Japan to market silicon wafers in that region. However, plans were canceled at the end of 1985 in response to the deepening recession in the industry and weak demand for wafers in Japan.
Acquisition - In September 1986, Siltec agreed to an acquisition by Mitsubishi Metal Corporation of Japan for approximately $33 million. The acquisition includes both Siltec Silicon and Cybeq Systems. Mitsubishi Metal Corporation is a multibillion dollar, multinational corporation headquartered in Tokyo. (Mitsubishi Metal and Mitsubishi Electric Corporation, the semiconductor manufacturer, are both members of the same industrial group, the Mitsubishi Group.) Mitsubishi Metal's wholly owned subsidiary, Japan Silicon (also known as Nippon Silicon or JASIL), is a major silicon manufacturer in Japan. The Siltec acquisition is being financed 60 percent by Mitsubishi Metal, 30 percent by Mitsubishi Mining and Cement, and 10 percent by Mitsubishi Corporation. Mitsubishi Metal is also a major supplier of galli\im arsenide wafers to the semiconductor industry.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 15
Silicon and Epitaxial Wafer Markets
Spire Corporation
Spire Corporation is a small epitaxial silicon company in Bedford, Massachusetts. Dataguest estimates that Spire Corporation had epitaxial wafer sales of $0.6 million in 1985. Spire provides 2-inch, 3-inch, and 100mm epi wafers and focuses on meeting custom epitaxial specifications for microwave devices and discretes. The company has chosen not to pursue the MOS epitaxial wafer market. Spire is currently designing its own silicon epitaxial reactor, based on experience and technology developed in the production of its gallium arsenide epitaxial reactor. Spire's silicon epitaxial reactor will handle 200mm wafers and is expected to be available by March 1987. (Spire also supplies gallium arsenide epitaxial wafers to the semiconductor industry.)
U.S Semiconductor
U.S. Semiconductor (Fremont, California) manufactures epitaxial wafers in the Silicon Valley. U.S. Semiconductor started its production with 125mm epitaxial wafers in April 1984 and currently supplies the semiconductor industry with 3-inch to 125mm epitaxial wafers. The company, founded in 1984, was privately held until its recently announced acguisition by Japanese silicon manufacturer Osaka Titanium Co., Ltd. (OTC). The acquisition took place in December 1986 for an undisclosed sum. Dataguest estimates that U.S. Semiconductor had epitaxial wafer sales of $5.2 million in 1985.
Virginia Semiconductor
Virginia Semiconductor, a small silicon wafer manufacturer in Fredericksburg, Virginia, specializes in small-diameter wafers (from 1 to 3 inches) and offers very thin wafers of three-mil (0.003 inch) thickness. Founded in 1978, Virginia Semiconductor started production of float zone and Czochralski single-crystal ingots in June 1979. Dataguest estimates that Virginia Semiconductor's 1985 silicon wafer sales were $1.5 million.
Japanese Silicon Companies
Five Japan-based merchant silicon companies supplied the semiconductor industry with wafers in 1985. These five manufacturers accounted for $754.0 million in silicon and epitaxial wafers sales. This amounted to 59.5 percent of the world's $1266.5 million silicon and epitaxial wafer market that year. Dataguest estimates that Shin-Etsu Handotai's worldwide silicon and epitaxial sales were $310 million, or approximately 41 percent of the Japan-based silicon company sales. Japanese merchant silicon companies differ from the majority of their Europe- and United States-based competitors in that all five silicon companies p rovide the semiconductor industry with both epitaxial and silicon wafers.
16 © 1987 Dataguest I nco rpo ra t ed February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
•Ti!*P?" RiT^n^T^
Japan Silicon is a major Japanese silicon and epitaxial wafer manufacturer. Dataquest estimates that Japan Silicon ranks as the world's fifth largest silicon company with worldwide sales of $128 million (10.1 percent of the world market) in 1985. Japan Silicon is a subsidiary of Mitsubishi Metal Corporation, the Japanese company that recently acquired the United States-based firm, Siltec Corporation.
Japan Silicon is known by several names in the industry: Nippon Silicon, Nihon Silicon, and JASIL. The history of Japan Silicon is thus: Japan Electronic, then part of Mitsubishi Metal, merged with Chisso Denshi to form a silicon operation called Toyo Silicon (Toyo means Asia in Japanese). Seven or eight years ago, Toyo Silicon's name was changed to Japan Silicon, which is often shortened to JASIL. Japan Silicon has been active in the sales and promotion of its products in the United States for the last 18 months to two years.
Table 7 gives the location of Japan Silicon's manufacturing facilities and plant activities. Both the Ikuno and Noda facilities have single crystal silicon operations and wafer production. The Noda Plant produces 3-inch to 200mm wafers, whereas the Ikuno Plant produces 125mm and 150mm wafers. Yamagata Silicon obtains ingots of single-crystal silicon from its sister plants and produces 100mm to 150mm diameter wafers. Epitaxial wafer activity takes place at the Noda Plant. Japan Silicon wafer capacity for polished wafers (3 inches to 200mm) is 20 MSI per month, diffused wafer capacity (3 inches to 125mm) is 900,000 square inches per month, and epitaxial wafer capacity (3 inches to 150mm) is 2 MSI per month.
Table 7
JAPAN SILICON PLANT LOCATIONS
Single-Crystal
Location Polysilicon Ingots Wafers
Ikuno Plant Asaki District, Hyogo Prefecture X X Noda Plant Noda City, Chiba Prefecture X , X Yamagata Silicon Yonezawa City, Yamagata Prefecture X
Source: Dataquest February 1987
SEMS Markets and Technology © 1987 Dataquest Incorporated February 17
Silicon and Epitaxial Wafer Markets
Japan Silicon obtains most of its polysilicon materials from Hi-Silicon Co., Ltd., located in Yokkaichi City, Mie Prefecture. Hi-Silicon was formed in 1967 as a joint venture between Mitsubishi Metal and Osaka Titanium Company. Through this joint venture, Japan Silicon and OTC are entitled to equal amounts of polysilicon capacity at the Hi-Silicon facility, which has a total capacity of 1,080 metric tons. Mitsubishi Metal Corporation (Japan Silicon's parent) also has a 12.25 percent equity position in Dow Coming's polysilicon subsidiary. Hemlock Semiconductor.
Komatsu Electronic Metals Co., Ltd.
Komatsu Electronic Metals, ranking sixth overall in worldwide sales, is a major supplier of silicon and epitaxial wafers to the Japanese market. Its 1985 sales were $116 million (9.2 percent worldwide market share). Komatsu Electronic Metals was incorporated in 1960 as an affiliate of Komatsu, Ltd.
Table 8 contains the locations and plant activities of Komatsu's silicon facilities. The Hiratsuka facility produces polysilicon, single-crystal silicon, and some wafers. The Kyushu Komatsu plant in Miyazaki produces most of the company's polished wafers. Komatsu's Nagasaki Plant was opened in 1985 and produces epitaxial wafers. Expansion to produce single-crystal silicon at Nagasaki is to be completed in the spring of 1987. Komatsu supplies both Czochralski and float zone material to the semiconductor industry. It ranks as one of the three major float zone suppliers in the world (Shin-Ktsu Handotai and Wacker are the others).
Komatsu both produces polysilicon for its own needs and purchases it from the merchant market to supplement its supply. Its polysilicon capacity is approximately 100 metric tons as of January 1987. Komatsu manufactures polysilicon by a proprietary method that employes monosilane gas. This method, known as the Komatsu method, uses crude silica as a source of silane gas that is refined to high purity, then decomposed into very high-purity polycrystalline silicon material. Union Carbide Corporation is the only polysilicon producer in the world that has licensed the Komatsu method. In addition to its internal usage of silane in polysilicon production, Komatsu Electronic Metals is also a major supplier of high-purity silane to the semiconductor industry for processing applications such as epitaxy and chemical vapor deposition.
18 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 8
KOMATSU ELECTRONIC METALS SILICON PLANT LOCATIONS
Single-Crystal
Location Polysilicon Ingots Wafers
Head Office and Plant Hiratsuka City, Kanagawa Prefecture X Ht' X Nagasaki Plant Omura City, Nagasaki Prefecture X Kyushu Komatsu Electric Co., Ltd. Kiyotake City, Miyazaki Prefecture X
Source: Dataquest February 1987
Osaka Titanitiin Company
Osaka Titanivim Company (OTC) is the Japanese semiconductor industry's second largest silicon supplier and ranks third in the world with sales of $160 million (12.6 percent of the world market) in 1985. OTC is part of the Osaka Titanium Group along with Hi-Silicon Co. and Kyushu Electronic Metals Co. OTC started research on silicon for semiconductor applications in 1957 and built its first polysilicon facility in 1960. Hi-Silicon was established in 1967 as a joint venture between Mitsubishi Metal and Osaka Titani\im Company in which both companies share equally the polysilicon capacity of the Hi-Silicon plant. (Hi-Silicon currently has poly capacity of 1,080 metric tons per year.) In 1984, OTC completed a new poly facility in Amagasaki with a current capacity of 720 metric tons per year. Between these two facilities, OTC's effective polysilicon capacity is 1,260 (540 + 720) metric tons per year.
Kyushu Electronic Metals was established in 1973 with OTC and Sumitomo Metal Industries as the major stockholders. All of OTC's wafers are produced at the Kyushu Electronic Metals facilities in the Saga Prefecture. Kyushu Electronic Metal's first wafer facility was built in 1975; its newest silicon plant, in Imari City, was completed in 1984. The Imari Plant is manufacturing 125mm, 150mm, and 2G0mm wafers.
OTC produces both silicon (Czochralski and float zone) and epitaxial wafers. Its epitaxial wafer capacity is on the order of 22 MSI per year; its total wafer capacity is about 250 MSI per year. Table 9 shows the plant locations and activities of silicon facilities within the Osaka Titanium Group.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 19
Silicon and Epitaxial Wafer Markets
Table 9
OSAKA TITANIUM GROUP SILICON PLANT LOCATIONS
Single-Crystal
Location Polysilicon Ingots Wafers
Osaka Titanium Company Head Office and Plant Amagasaki, Hyogo Prefecture
Kyushu Electronic Metal Co., Ltd. Head Office and Plant Kishima District, Saga Prefecture Imari Plant Imari City, Saga Prefecture
Hi-Silicon Co., Ltd. Head Office and Plant Yokkaichi City, Mie Prefecture
Source: Dataguest February 1987
Shin-Etsu Handotai
Shin-Etsu Handotai (also known as SEH) is the largest silicon and epitaxial wafer company in the world with 1985 sales of $310 million, or 24.5 percent of the $1,266.5 million market. SEH is also the largest merchant silicon company in Japan with 1985 silicon and epitaxial wafer sales of $226.6 million, or 34.9 percent of the $648.6 million market. Shin-Etsu Handotai was formed as a joint venture between Shin-Etsu Chemical and Dow Corning in 1967. In 1979, Shin-Etsu Chemical acquired full ownership of Shin-Etsu Handotai. Shin-Etsu Handotai's subsidiaries and affiliates include SEH America, SEH Europe, and SEH Malaysia.
Like several of the major silicon merchant companies, Shin-Etsu Handotai's silicon manufacturing is vertically integrated, from polysilicon to polished wafers. Polysilicon facilities are at the Naoetsu factory (part of Shin-Etsu Chemical) and the Isobe factory. Polysilicon capacity is currently about 150 metric tons per year. Shin-Etsu Handotai has a 24.5 percent equity position in Hemlock Semiconductor, the Dow Corning polysilicon subsidiary, and obtains additional polysilicon from other vendors to supplement its needs.
20 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Shin-Etsu Handotai is a major manufacturer of both Czochralski and float zone material. Float zone i n g o t s are grown at the I sobe and Saigata facilities; Czochralski ingots, at I s o b e , Shirakawa, and Takefu, as well as Vancouver, Washington, and Livingston, Scotland. Shin-Etsu Hando tai produces epitaxial wafers at the Isobe and Shirakawa factories in Japan, and overseas at Vancouver and Livingston. Shin-Etsu Handotai's world headquarters are in Tokyo, and its RS<D centers are at Isobe and Vancouver. In addition to silicon p r o d u c t s , Shin-Etsu Handotai manufactures gallium arsenide and gallium phosphide through a joint venture with Furukawa Mining known as Iwaki Handotai. Table 10 summarizes Shin-Etsu Handotai's silicon plant locations and activities.
Table 10
SHIN-ETSU HANDOTAI SILICON PLANT LOCATIONS
Single-Crystal
Location Polysilicon Ingots Wafers
Isobe Plant Annaka City, Gunma Prefecture X X X Nagano Plant X Naoetsu Plant Jyoetsu City, Niigata Prefecture X X Saigata Plant Kubiki Town, Niigata Prefecture X Shirakawa Plant Nishishirakawa, Fukushima Prefecture X X Takefu Plant Takefu District, Fukui Prefecture X Kuala Lumpur, Malaysia X Vancouver, Washington, United States X ' X Livingston, Scotland, United Kingdom X X
Source: Dataguest February 1987
SEMS Markets and Technology © 1987 Dataquest Incorporated February 21
Silicon and Epitaxial Wafer Markets
Toshiba Ceramics
Toshiba Ceramics supplies both silicon and epitaxial wafers to the semiconductor industry. Dataguest estimates that Toshiba Ceramics had worldwide wafer sales of $40 million in 1985, of which 98 percent were to Japanese semiconductor manufacturers. Toshiba Ceramics makes major sales of silicon and epitaxial wafers to its parent company, Toshiba Corporation, the semiconductor manufacturer. However, Dataguest still considers Toshiba Ceramics to be a merchant silicon manufacturer because the company has active marketing and sales of wafers to the merchant market in addition to supplying its semiconductor parent.
Toshiba Ceramics has a silicon manufacturing facility (Oguni Plant) in the Nish ioki tama District, Yamagata Prefecture. Activities at this facility include the growth of Czochralski single-crystal silicon ingots and wafer production. Toshiba Ceramics has a joint venture with the polysilicon manufacturer, Tokuyama Soda, known as Tokuyama Ceramics (Tokuyama, Yamaguchi Prefecture). This facility produces all of Toshiba Ceramics' epitaxial wafers. In addition to silicon and epitaxial wafers, Toshiba Ceramics manufactures a diverse product mix for the semiconductor industry including ceramic materials and quartz, graphite, and silicon carbide products. Table 11 shows Toshiba Ceramics' silicon plant locations and activities.
Table 11
TOSHIBA CERAMICS SILICON PLANT LOCATIONS
Location
Single-Crystal
Polysilicon Ingots Wafers
Oguni Plant Nishiokitama District, Yamagata Prefecture Tokuyama Ceramics Tokuyama, Yamaguchi Prefecture
X
X
Source: Dataguest February 1987
22 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
European Silicon Companies
Three Europe-based merchant silicon companies supplied the semiconductor industry with wafers in 1985. During that year, these manufacturers accounted for $256.8 million in silicon and epitaxial wafer sales, or 20.3 percent of the world's $1,266.5 million market for those products. (This is very close to 1985 United States-based silicon company sales of $255.7 million.) Dataquest estimates that Wacker had worldwide silicon and epitaxial sales of $205 million, or approximately 80 percent of the Europe-based silicon company sales. Of the three Europe-based silicon companies, only Wacker supplied both silicon and epitaxial wafers. (Dynamit Nobel began epitaxial wafer production in the latter half of 1986 at its Novara facility.)
Dynamit Nobel Silicon
Dynamit Nobel Silicon (also known as DNS) is a subsidiary of Dynamit Nobel AG, one of West Germany's largest chemical and plastics producers. Dynamit Nobel AG was established by the Swedish engineer Alfred Nobel, the inventor of dynamite and founder of the Nobel Foundation.
Prior to DNS becoming a wholly owned subsidiary of Dynamit Nobel AG in October 1980, it had been known as Smiel and was owned by Montedison. Today the company is completely dedicated to the merchant manufacture of s i l i c o n for the semiconductor industry. Corporate headquarters are in Novara, Italy. Table 12 presents a summary of DNS plant locations and activities.
Table 12
DYNAMIT NOBEL SILICON PLANT LOCATIONS
L<?Q9ti<?n
Merano Novara Research Triangle Park, North Carolina Sunnyvale, California
Country
Italy Italy
United States United States
Polysilicon
X
Single-Crystal Inaots
Z
Technical Wafers Center
X
X
Source: Dataquest February 1987
SEMS Markets and Technology 1987 Dataquest Incorporated February 23
Silicon and Epitaxial Wafer Markets
Dynamit Nobel Silicon reported that polysilicon capacity at Merano, Italy, was expanded from 450 to 700 metric tons per year at the end of 1985. Dataguest believes that current polysilicon capacity is still on the order of 700 metric tons per year. Both Czochralski and float zone ingots are grown at the Merano facility. Dynamit Nobel Silicon's European silicon wafer operations are at Novara, Italy, where epitaxial wafer production started in the latter half of 1986.
DNS' North Carolina facility was originally a joint venture between Dynamit Nobel Silicon and W.R. Grace. The two companies formed Dynamit Nobel Grace Silicon in late 1984 to produce silicon wafers, polysilicon and single-crystal ingots at a new facility in North Carolina. They initially invested $35 million in the Research Triangle Park plant, which was opened in May 1985; this facility began wafer production in January 1986. In March 1986, Dynamit Nobel Silicon bought out the one-third interest held by Grace for approximately $10.8 million. The North Carolina facility currently produces Czochralski polished wafers.
In addition to supplying both float zone and Czochralski silicon wafers to the semiconductor industry, DNS sells some single-crystal ingots and polysilicon. Dataguest believes that Dynamit Nobel Silicon's sales of poly are split almost equally between Japan and the United States. Dataguest estimates that the company's 1985 worldwide wafer sales were $43 million.
Topsil Semiconductor Materials A/S
Topsil is a merchant silicon manufacturer in Frederikssund, Denmark. Topsil produces its own polysilicon, grows float zone single-crystal ingots, and manufactures wafers. The company pioneered the neutron transmutation doping (NTD) technique in 1974. This technique transforms silicon atoms into phosphorous by exposing a wafer to a flux of thermal neutrons. Although the technique can form only phosphorous-doped materials, its advantage is that it can provide an extremely uniform distribution of phosphorous, thus producing wafers with well-defined resistivity profiles.
Wacker
Wacker is the world's second largest supplier of silicon and epitaxial wafers to the semiconductor industry with 1985 sales of $205 million, or 16.2 percent of the world market share. Wacker is the name used in this study to refer to the collective silicon operations of Wacker-Chemie GmbH of West Germany, which is owned equally by Hoechst AG and Dr. Alexander Wacker Familien Gesselschaft mbH. Wacker-Chemie first started its research into high-purity silicon materials in 1953 and established Wacker-Chemitronic at Burghausen, West Germany, in 1968.
24 © 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Wacker Siltronic, established in 1978/ is a U.S. subsidiary of Wacker-Chemie and an affiliate of Wacker-Chemitronic. Wacker's silicon plant locations and activities are shown in Table 13.
Table 13
WACKER SILICON PLANT LOCATIONS
Location
Wacker Chemitronic Burghausen, West Germany Wacker Siltronic Portland/ Oregon
Polysilicon
X
Single-Crystal Ingots
X
X
Wafers
X
X
Source: Dataquest February 1987
Wacker's Burghausen facility has a polysilicon capacity of approximately 3,200 metric tons per year. In addition, extensive single crystal growth operations, both Czochralski and float zone, and wafer production, silicon and epitaxial, occur at Burghausen. Wacker is a recognized leader in the field of float zone silicon material. In addition to producing semiconductor substrate materials (silicon and gallium arsenide), Wacker-Chemitronic established a sxibsidiary, Heliotronic GmbH, in 1977, to research and manufacture solar-grade silicon.
Wacker Siltronic produces silicon crystal ingots and wafers at its Portland facility. Plans t o build a polysilicon facility there have been put on hold due to the poor economic conditions within the semiconductor industry.
Wacker Chemicals East Asia, established in Tokyo in 1982, serves as a marketing and sales arm for Wacker-Chemie in Japan and the Pacific Rim. Dataquest estimates that Wacker's Japanese silicon and epitaxial wafer sales were $5.5 million in 1985. This represents 0.9 percent of the Japanese silicon market. Dataquest believes that Wacker's presence in Rest of World (ROW) is siibstantially larger, with silicon and epitaxial wafer sales of $28.5 million, or 40.2 percent of the ROW silicon market.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 25
Silicon and Epitaxial Wafer Markets
Hew Entrants
Japan
Two new Japanese companies entered the merchant silicon market in 1986, Nittetsu Denshi (a subsidiary of Nippon Steel) and Showa Denko. Both Showa Denko and Nittetsu Denshi started sampling 125mm polished wafers in the third quarter of 1986, and industry sources expect both companies to be significantly competive by late 1987 or 1988.
Nittetsu Denshi - Nittetsu Denshi (also referred to as Nittetsu Shoji, Nittetsu Electronics, and NSC Electron) was established as a wholly owned subsidiary of Nippon Steel in June 1985. The silicon wafer facility is in Hikari City, Yamaguchi Prefecture. Sampling began in the fall of 1986, and production-level wafers are expected in the second quarter of 1987. Nippon Steel, Nittetsu Denshi's parent, is one of several Japanese steel manufacturers diversifying from its traditional sunset industry, steel, into the sunrise industries, such as electronic materials. In addition to financial backing, the steelmaker can provide its new venture with a strong background in support technologies for silicon manufacturing, such as crystal growth control and precision measurement. To speed its entry into the silicon market, Nippon Steel agreed to provide Hitachi with a stable supply of silicon wafers from its new subsidiary in exchange for technological assistance.
Showa Denko - Showa Denko began actively sampling silicon wafers in 1986. In addition to its new venture into silicon wafers, Showa Denko provides a broad mix of electronic materials to semiconductor manufacturers, including compound semiconductor materials (gallium arsenide, gallium phosphide, and indium phosphide) and high-purity specialty gases (such as silane, hydrogen chloride, boron trichloride, nitrogen trifluoride, and fluorocarbon etchants).
Showa Denko manufactures silicon at its Chichibu City facility in Saitama Prefecture. (Single-crystal ingots of gallium arsenide are also produced at this facility.) Dataguest estimates that Showa Denko's wafer capacity was approximately 9.0 million square inches at the end of 1986. The company's expansion plans call for wafer capacity of approximately 35 to 40 MSI by late 1987 or early 1988. Showa Denko manufactures both Czochralski and magnetic Czochralski (MCZ) material. The company obtained its MCZ technology from Sony Corporation, a pioneer in this field. The MCZ growth method has received much attention the last few years because of its ability to provide very high-purity material with tight oxygen control.
Showa Denko has ten years of experience in compound semiconductor material manufacturing and an existing distribution network in electronic materials, factors that Showa Denko hopes will provide a competitive advantage.
26 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Europe
Otanetic - Okmetic is a new merchant silicon company in Espoo, Finland. The company was founded in 1985. Production of 3-inch through 125mm Czochralski wafers will begin in 1987.
Rhone-Siltec - In 1984, Siltec entered into an agreement with Ehone-Poulenc of France to manufacture silicon wafers in France for distribution to semiconductor manufacturers in Western Europe. Rhone-Poulenc is one of tihe world's largest chemical companies, and its entrance into the silicon wafer business is another indication of the growing interest of chemical manufacturers in the field of electronic materials. The joint venture, Rhone-Siltec, began pilot production in September 1985 at a facility near Mantes-la-Jolie (100 kilometers west of Paris). Rhone-Siltec has single crystal growth and polished wafer operations; current wafer capacity is approximately 20 MSI.
Korea
Lucky Advanced Materials - In October 1985, Siltec announced the licensing of its silicon technology to Lucky Advanced Materials of Korea, an affiliate of the Lucky-Goldstar group. Lucky Advanced Materials agreed to pay Siltec $4 million plus royalties for the technology. The Lucky Advanced Materials silicon facility is located in Gumi and began production in February 1987. Wafer capacity at this facility is on the order of 20 MSI. The Lucky Advanced Materials plant is the only facility in Korea that has single crystal silicon growth and wafer production operations.
MARKET ANALYSIS—COMPAMY MARKET SHARE BY REGION
This section presents Dataquest's estimates of worldwide and regional silicon and epitaxial wafer shipments by the merchant silicon companies in 1985. Our estimates of company sales include wafers sold directly t o semiconductor manufacturers and those sold to epitaxial silicon wafer houses that do not grow all of their own material. The potential problem of double-counting million square inches that arises from sales to epi houses is corrected in our final analysis of total million square inch consumption by the semiconductor industry. The company market share that we publish, however, reflects sales to both sets of customers: semiconductor manufacturers and epitaxial silicon wafer companies.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 27
Silicon and Epitaxial Wafer Markets
Tables 14 through 18 present 1985 merchant silicon and epitaxial wafer sales. Tables 14 through 17 are each devoted to silicon and epitaxial wafer sales in a given region of the world. Table 18 presents merchant silicon company market share for wafer sales worldwide. The total market for silicon and epitaxial wafers in 1985 was $1,266.5 million. Of this total, $255.7 million or 20.2 percent was produced by United States-based merchant silicon manufacturers, $754.0 million or 59.5 percent was produced by Japan-based merchant silicon manufacturers, and $256.8 million or 20.3 percent was produced by Europe-based merchant silicon manufacturers.
28 © 1987 Dataguest I nco rpo r a t ed February SEMS Markets and Technology
•
Silicon and Epitaxial Wafer Markets
United States
Figure 1 shows the market share of the r e g i o n a l l y based silicon companies in the $387.9 million U.S. wafer market in 1985. Dataguest estimates that United States-based companies supplied approximately 56 percent ($216.3 million) of the silicon and epitaxial wafers sold in the United States in 1985. In particular. United States-based epitaxial manufacturing accounted for almost 79 percent of epitaxial wafer sales. This, in part, is due to the presence of the many U.S. small epitaxial silicon manufacturers. In 1985, Europe-based and Japan-based silicon companies had essentially equal share of the U.S. market; Wacker and Shin-Etsu Handotai sales dominated each of these groups. Additional sales of epitaxial and silicon wafers by United States-based companies outside of the United States amounted to $39.4 million, or 15.4 percent of total United States-based company sales of $255.7 million.
Table 14 presents figures for silicon and epitaxial wafer sales to semiconductor manufacturers in the United States in 1985.
Figure 1
REGIONALLY BASED SILICON COMPANY MARKET SHARE IN THE UNITED STATES, 1985
1985 $387.9 Million
Source: Dataquest February 1987
SEMS Markets and Technology © 1987 Dataquest Incorporated February 29
Silicon and Epitaxial Wafer Markets
Table 14
U.S. SILICON AND EPITAXIAL WAFER MARKET, 1985 (Millions of Dollars)
Company Silicon Percent Epitaxial Percent Total Percent Wafers Share Wafers Share Sales Share
.S.-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. General Instruments Power Semicond. Div. Gensil Fairchild M/A-COM Monsanto Motorola NEK Corporation Pensilco Recticon Silicon Services Siltec Spire Corporation U.S. Semiconductor^ Virginia Semiconductor
Total
8.6
1.8 0.2
98, 1, 6, 3, 5,
23.8
J ^
$150.5
2.8%
0.6 0.1
32.2 0.6 2.2 1.1 1.6
7.8
0.4
49.5%
$39.1
2.7
2.1
4.8 10.4 0.3
0.8
0.6 5.0
$65.8
46.8%
3.2
2.5
5.8 12.5 0.4
1.0
0.7 6.0
$39.1 10.1% 8.6 2.2 2.7 0.7
2. 1. 0. 4.
108. 2. 6. 3. 5. 0, 23.8 0.6 5.0
1.4
.1
.8
.2
.8
.4
.1
.7
.3
.0 ,8
0 0 0 1
27 0 1 0 1 0 6 0 1
.^^
78.9% $216.3 55.7%
Japan-Based Companies Japan Silicon Komatsu Electronic Metals Osaka Titanium Company Shin-Etsu Handotai Toshiba Ceramics
$ 0.9
4 . 6
1,4.5 53.9
0 .7
0.3%
1.5
4 . 8 17.7
0 . 2
$ 0 . 4
1.0
1 .1 7 . 8 O T I
0.4%
1.2
1.3 9 .4 0 . 1
$ 1.3
5 .6
15.6 61.7
0 . 7
0.3%
1.4
4 . 0 15.9
0 . 2
Total $ 74.6 24.5% $10.3
Europe-Based Companies Dynamit Nobel Silicon $ 18.9 6.2% Topsil 2.2 0.7 Wacker 58.2 19.1 $ 7.4
Total $ 79.4 26.0% $ 7.3
12.3% $ 84.9 21.9%
8.8%
$18.9 2.2
65.6
8.8% $ 86.7
4.9% 0.6 16.9
22.4%,
Total Sales— United States $304.5 100.0% $83.4 100.0% $387.9 100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataguest February 1987
30 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Japan
Figure 2 shows the market share of the regionally based silicon companies in the $648.6 million Japanese wafer market in 1985. Dataguest estimates that Japan-based compsuiies sold $632.1 million wort:h of silicon and epitaxial wafers, with non-Japanese silicon companies accounting for only 2.5 percent of the Japanese market in 1985. This is partly because silicon specifications are much tighter in Japan than in other regions, and thus local vendors can work closely with their customers to meet these requirements. In addition, Japan-based silicon companies have a tendency to develop long-term relationships with their semiconductor manufacturer customers, making it difficult for an outside vendor to penetrate the market. Additional sales of epitaxial and silicon wafers by Japan-based silicon companies in other regions of the world amounted to $121.9 million, or 16.2 percent of total Japan-based silicon and epitaxial wafer sales in 1985.
Table 15 presents figures for silicon and epitaxial wafer sales by merchant silicon companies to semiconductor manufacturers in Japan in 1985.
Figure 2
REGIONALLY BASED SILICON COMPANY MARKET SHARE IN JAPAN, 1985
Europe-Based Companies 1.3% ynited States-Based
Companies 1.2%
1985 $648.6 Million
Source: Dataquest February 1987
SEMS Markets and Technology © 1987 Dataguest Incorporated February 31
Silicon and Epitaxial Wafer Markets
Table 15
JAPANESE SILICON AND EPITAXIAL WAFER MARKET, 1985 (Millions of Dollars)
Company
U.S.-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. General Instruments Power Semicond. Div. Gensil Fairchild M/A-COM Monsanto Motorola NBK Corporation Pensilco Recticon Silicon Services Siltec Spire Corporation U.S. Semiconductor Virginia Semiconductor
Silicon Percent Epitaxial Percent Total Wafers
$ 0.1
7.5
0.1
Share
0.0
1.4%
0.0
Wafers
$ 0.1
0.1
Share Sales
0.0
0.1%
Percent Share •
0.1
0.1
7.6
0.1
0.0
0.0
1.2%
0.0
Total 7.7 1.5% $ 0.2 0.1% $ 7.9 1.2%
Japan-Based Companies Japan Silicon Komatsu Electronic Metals Osaka Titanium Company Shin-Etsu Handotai Toshiba Ceramics
$ 88.4
83.7
123.3 174.0 33.3
17.0%
16.2
23.8 33.6 6.4
$ 33.3
23.8
14.0 52.7 5.9
25.5%
18.2
10.7 40.4 4.6
$121.6
107.5
137.2 226.6 39.3
18.7%
16.6
21.2 34.9 6.1
Total $502.6 97.0% $129.5 99.5% $632.1 97.5%
Europe-Based Companies Dynsunit Nobel Silicon
psil icker
Total
Total Sales--Japan
$ 2.6 5.5
$ 8.1
$518.4
0.5% ItO
1.5%
100.0%
$ 0,5
$ 0.5
$130.2
0.4%
0.4%
100.0%
$ 2.6 5.9
$ 8.6
$648.6
0.4% 0.9
1.3%
100.0%
Note: Columns may not add to totals shown because of rounding.
Source; Dataguest February 1987
32 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Europe
Figure 3 shows the market share of the regionally based silicon companies in the $159.2 million European wafer market in 1985. Dataguest estimates that Europe-based companies supplied more than 80 percent, or $130.0 million, of the silicon and epitaxial wafers sold in Europe in 1985. United States-based companies represented 11.9 percent and Japan-based companies, an additional 6.6 percent of the European silicon and epitaxial market. Europe-based silicon companies sold $126.8 million worth of wafers outside of Europe, or 49.4 percent of total Europe-based silicon company sales. Most of these sales were to the United States.
Table 16 presents figures for silicon and epitaxial wafer sales to semiconductor manufacturers in Europe in 1985.
Figure 3
REGIONALLY BASED SILICON C0MPAN7 MARKET SHARE IN EUROPE, 1985
Japan-Based Companies
6.6%
United Statas-Baeed Companies
11,9%
1985 $159.2 MUllon
Source: Dataquest February 1987
SEMS Markets and Technology © 1987 Dataguest Incorporated February 33
Silicon and Epitaxial Wafer Markets
Table 16
EUKOPEAN SILICON AND EPITAXIAL WAFER MARKET, 1985
(Millions of Dollars)
Company
U.S.-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. General Instruments Power Semicond. Div. Gensil Fairchild M/A-COM Monsanto Motorola NBK Corporation Pensilco Recticon Silicon Services Siltec Spire Corporation U.S. Semiconductor Virginia Semiconductor
Total
Japan-Based Companies Japan Silicon Komatsu Electronic Metals Osaka Titanium Company Shin-Etsu Handotai Toshiba Ceramics
S; Llicon Wafers
$
$
$
-0.3 -
-0.5
- • .
-12.4
---.-, •».•
---
Otl
13.2
2.7
-
2.9 2.5 -
Percent Share
-0.2% -
-0.4 --9.0 --------
0.1
9.7%
2.0%
-
2.1 1.8 -
Epi teixial Wafers
$
$
$
1.7 -0.6
0.3 --0.9 2.1 -.------0.1
_
5.6
1.1
_
-1.3 -
Percent Share
7.6% -
2.7
1.1 --
4.1 9.5 .—. ------0.5
.
25.5%
5.0%
-
-5.9 -
T( 3tal Sales
$
$
$
1.7 0.3 0.6
0.3 0.5 -
0.9 14.5
-— -----0.1
0,1
18.8
3.8
-
2.9 3.8 -
Percent Share
1.1% 0.2 0.4
0.2 0.3 _
0.6 9.1 _ .~ .--_ _ -0.1
.0
11.9%
2.4%
_
1.8 2.4
• • _
Total $ 8.1 5.9% $ 2.3 10.9% $ 10.4
Europe-Based Companies
Dynamit Nobel Silicon $ 21.5
Topsil 3.5
Wacker 91.0
Total $116.0
Total Sales—Europe $137.3
6.6%
15.6% 2.6
66.2
84.4%
100.0%
--
$14.0
$14.0
$21.9
--
63.6%
63.6%
100.0%
$ 21.5 3.5
105.0
$130.0
$159.2
13.5% 2.2
65.9
81.5%
100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataguest February 1987
34 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
ROW
Figure 4 shows the market share of the regionally based s i l i c o n companies in the $70.8 million ROW wafer market in 1985. Dataguest estimates that Europe-based companies accounted for the majority of ROW sales, with 44.4 percent of regional share, or $31.5 million. Japan-based silicon companies accounted for a 37.6 percent share, whereas United States-based silicon companies represented only 18.0 percent of silicon and epitaxial wafers sold in ROW. The three major suppliers to ROW are Wacker (40.2 percent share), Shin-Etsu Handotai (25.4 percent share), and Monsanto (9.3 percent share). Both Monsanto and Shin-Etsu have established wafer production facilities in Kuala Lumpur, while Monsanto opened an additional wafer production facility in Korea in 1986. Wacker depends on its Wacker Chemicals Far East operations to supply sales and marketing support for customers in the Pacific Rim and Japan.
Table 17 presents figures for silicon and epitaxial wafer sales to semiconductor manufacturers in ROW in 1985.
Figure 4
REGIONALLY BASED SILICON COMPANY MARKET SHARE IN ROW, 1985
Japan-Based / Companies /
37.6% /
Europe-Based Companies
44.4%
1985 $70.8 Million
^Jnlted States-Based \ Companies
\ 18.0%
SQurce: Dataqucit February 1987
SEMS Markets and Technology © 1987 Dataguest Incorporated February 35
Silicon and Epitaxial Wafer Markets
Table 17
ROW SILICON AND EPITAXIAL WAFER MARKET, 1985 (Millions of Dollars)
Company
U.S.-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. General Instruments Power Semicond. Div. Gensil Fairchild M/A-COM Monsanto Motorola NBK Corporation Pensilco Recticon Silicon Services Siltec Spire Corporation U.S. Semiconductor Virginia Semiconductor
Silicon Wafers
-
_
Percent Share
-
_
Epitaxial Wafers
$ 1.3
2.7
Percent Share
12.7%
26.5
Total Sales
$ 1.3
2.7
Percent Share
1.8%
3.8
$ 0.3
6.2
0.2
0.5%
10.2
0.3
0.3 0.4
3.0 3.9
0.3
0.3 6.6
0.2
0.4
0.4 9.3
0.3
0.2 2.0 0.2 0.3 1.0 1.6 - - 1.0 1.4
0.1 1.0 0.1 0.1
0.1 0.2 -_ - 0.1 0.1
Total $ 7.7 12.8% $ 5.0 49.0% $12.7 18.0%
Japan-Based Companies Japan Silicon Komatsu Electronic Metals Osaka Titanium Company Shin-Etsu Handotai Toshiba Ceramics
$ 0.9
2.7
4.4 14.7
-
1.5%
4.5
7.2 24.2
-
$ 0.4
0.3
-3.3 _
3.9%
2.9
-32.4
-
$ 1.3
3.0
4.4 18.0
_
1.8%
4.2
6.2 25.4
_
Total $22.7 37.4% $ 3.9 39.2% $26.6 37.6%
Europe-Based Companies Dynamit Nobel Silicon $ 2.6 Topsil Wacker
Total
Total Sales- -ROW
$ 2.6 0.4 27.3
$30.3
$60.7
4.2% 0.7
44.9
49.8%
100.0%
--
$ 1.2
$ 1.2
$10.1
--
11.8%
11.8%
100.0%
$ 2.6 0.4 28.5
$31.5
$70.8
3.6% 0.6
4Q.2
44.4%
100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataguest February 1987
36 © 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Worldwide Silicon an« Bp a rial Sales
Figure 5 shows the 1985 market share of the regionally based silicon companies in the $1,266.5 million silicon and epitaxial wafer market. Japan-based silicon companies dominated, with $754.0 million in sales, or 59.5 percent of the market. Europe-based silicon compauaies ran slightly ahead of United States-based companies, capturing 20.3 percent ($256.8 million) of the market, just a tenth of a percent more than the 20.2 percent ($255.7 million) taken by United States-based companies. The sales of the top six merchant silicon companies accounted for $1,056 million, or 83.4 percent of the 1985 worldwide merchant silicon and epitaxial wafer market. These companies, in order of decreasing market share, are Shin-Etsu Handotai, Wacker, Osaka Titanium Company, Monsanto, Japan Silicon, and Komatsu Electronic Metals. Worldwide market share for each of these silicon manufacturers has been identified in Tables 1 and 18.
Table 18 presents figures for worldwide silicon and epitaxial wafer sales to semiconductor manufacturers in 1985.
Figure 5
REGIONALLY BASED SILICON COMPANY MARKET SHARE WORLDWIDE, 1985
1985 $1,266.5 Million
United States-Based Companies
20.2%
Source: Dataquest February 1987
SEMS Markets and Technology © 1987 Dataquest I n c o r p o r a t e d February 37
Silicon and Epitaxial Wafer Markets
Table 18'
HORLDHIDE SILICON AMD EPITAXIAL HAFER MARKET, 1985 (Millions of Dollars)
Company
U.S.-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. General Instruments Power Semicond. Div.
Gensil Fairchild M/A-COM Monsanto Motorola NBK Corporation Pensilco
Recticon Silicon Services Siltec Spire Corporation U.S. Semiconductor Virginia Semiconductor
Silicon Wafers
-$ 9.0
-
-2.5 0.2 -
124.0 1.8 7.0 3.3 5.0 -
24.8 --
1.5
Percent Share
-0.9% -
-0.2 0.0 -
12.1 0.2 0.7 0.3 0.5 -
2.4 --
0.1
Epitaxial Wafers
$ 42.0 -
6.0
2.5 --
6.0 13.0 0.3 ---
1.0 -
0.6 5.2
-
Percent Share
17.1% _ 2.4
1.0 -_
2.4 5.3 0.1 ---
0.4 -
0.2 2.1
-
Total Sales
$ 42.0 9.0 6.0
2.5 2.5 0.2 6.0
137.0 2.1 7.0 3.3 5.0 1.0
24.8 0.6 5.2
1.5
Percent Share
3.3% 0.7 0.5
0.2 0.2 0.0 0.5 10.8 0.2 0.6 0.3 0.4 0.1 2.0 0.0 0.4
0,1
Total $ 179.1 17.5% $ 76.6 31.2% $ 255.7 20.2%
Japan-Based Companies Japan Silicon Komatsu Electronic Metals Osaka Titanium Company Shin-Etsu Handotai Toshiba Ceramics
Total
$ 93.0
91.0
145.0 245.0 34.0
9.1%
8.9
14.2 24.0 3.3
$ 35.0
25.0
15.0 65.0 6.0
14.3%
10.2
6.1 26.5 2.4
$ 128.0
116.0
160.0 310.0 40.0
10.1%
9.2
12.6 24.5 3.2
608.0 59.6% $146.0 59.4% $ 754.0 59.5%
Europe-Based Companies Dynamit Nobel S i l i c o n $ 43.0 Tops i l 8.8 Wacker 182.0
To ta l $ 2 3 3 . 8
4 .2% 0 . 9
1 7 , 8
22 .9%
$ 23.0
$ 23.0
$ 43.0 3.4% 8.8 0.7
9.4% 205.0 16.2
9.4% $ 256.8 20.3%
Tota l Worldwide Sa les $1,020.9 100.0% $245.6 100.0% $1,266.5 100.
Note: Columns may not add to t o t a l s shown because of rounding.
Source: Dataquest February 1987
38 © 1987 D a t a q u e s t I n c o r p o r a t e d F e b r u a r y SEMS Markets and T e c h n o l o g y
Silicon and Epitaxial Wafer Markets
MARKET ANALYSIS—WAFER PRICING
Dataguest surveyed tihe merchant silicon companies to establish 1985 average selling prices (ASPs) for silicon and epitaxial wafers. The silicon wafer prices reflect the ASP for a polished CZ wafer. Table 19 presents t:hese estimates (as measured in dollars) for the United States, Europe, and ROW combined, on a per wafer basis and per square inch. In addition. Table 19 specifically breaks out the price of 100mm through 150mm silicon wafers in Japan (in yen and dollars—exchange rate, ¥238/$l) because of the predominance of these sizes in Japan's wafer consumption mix and our knowledge of specific pricing differences between Japan and the United States. Epitaxial wafer prices vary considerably depending upon the level of custom specifications and the tJiickness of the epitaxial layer required.
Table 19
AVERAGE SELLING PRICES OF S I L I C O N AND EPITAXIAL WAFERS, 1985
Wafer Diameter 2 i n . Wafer Area (Square Inches) 3.14
3 i n . lOOnun 125inin ISOnun 200min 7.07 12.17 19.02 27.39 48.70
U .S . , Europe, ROW Per Wafer ($) Per Square Inch
($/SI)
Polished S i l i c o n Wafer P r i ce s
$ 3.40 $ 5.60 $10.30 $21.00 $ 37.80 $100-$200
$ 1.08 $ 0.79 $ 0.85 $ 1.10 $ 1.38 $2.05-4.10
Japan* Per Wafer (Yen) Per Wafer ($) Per Square Inch ($/SI)
Worldwide Per Wafer Per Square Inch ($/SI)
$16.80
$ 5.35
¥2,250 ¥4,600 ¥ 9,000 $ 9.50 $19.30 $ 37.80
$ 0.78 $ 1.02 $ 1.38
Epitaxial Wafer Prices
$21.70 $32.00 $54.70 $105.70
$ 3.07 $ 2.63 $ 2.88 $ 3.86
N/A
*¥238 = $1 N/A = Not Applicable
Source; Dataquest February 1987
SEMS Markets and Technology © 1987 Datagues t I n c o r p o r a t e d February 39
Silicon and Epitaxial Wafer Markets
The regional ASP per square inch of silicon and epitaxial wafers is dependent upon the wafer size mix in the different regions of the world. Table 20 is Dataquest's estimate of the wafer size distribution (by percent MSI) for the four regions of the world in 1985. (Dataquest's forecast for the U.S. wafer size distribution is presented in a later section.)
A regional ASP per square inch can be calculated by taking the sum of the products of per-square-inch price of a given size wafer (Table 19) multiplied by the appropriate percentage of the wafer size mix consumed in a given region (Table 20). For example, the ASP per square inch for polished CZ silicon wafers in the United States can be calculated as follows:
United States Average Polished CZ
Wafer Price
(0% * $1.OS/Square Inch) (7% * $0.79/Square Inch)
$0.85/Square Inch) $1.10/Square Inch)
(55% * (30% *
+ (8% * $1.38/Sguare Inch)
= $0.96/Square Inch
Table 20
WAFER SIZE DISTRIBUTION BY REGION, 1985 (Percent of Million Square Inches)
United States Japan Europe ROW
2 in. 3 in. 100mm 125mm 150mm 200mm
0 7% 55 30 8 0
0 6% 42 40 12 0
2% 23 58 15 2 0
2% 19 52 21 6 0
Total 100% 100% 100% 100%
Source: Dataquest February 1987
40 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
The regional ASPs per square inch for polished CZ silicon wafers and epitaxial wafers are presented in Table 21. Japan's ASP per square inch for polished wafers was generated using the Japanese silicon wafer prices, which were broken out separately in Table 19. (Average 2-inch and 3-inch silicon wafer prices in Japan are assumed to be the same as for the U.S., Europe, and ROW.) It is assumed that the wafer size distribution is the same for both silicon and epitaxial wafers in a given region.
Table 21
SILICON AND EPITAXIAL WAFERS AVERAGE SELLING PRICE BY REGION, 1985
(Dollars per Square Inch)
United States Japan Europe ROW
Silicon Wafers (Polished CZ) Silicon Wafers (Average) Epitaxial Wafers
$0.96 $0.94 $2.84
$0.95 $0.89 $0.93 $0.98 $1.02 $0.96 $2.91 $2.85 $2.89
Source: Dataquest February 1987
In addition. Table 21 presents a weighted ASP per square inch for all types of silicon wafers sold by merchant silicon companies (i.e., polished, test, Czochralski, float zone). Note that the silicon wafer ASP per square inch in the United States is lower than the ASP for polished CZ wafers, whereas the European silicon wafer ASP per square inch is higher than its CZ counterpart. We believe that the U.S. market is more competitive because of the large number of vendors fighting to gain share. While the usage of lower-priced nonprime wafers in the United States and Europe reduces the ASP, the average price for silicon wafers in Europe is higher than the price of CZ wafers because of the proportionately higher use of float zone material in that region. (Float zone is typically more costly than Czochralski material.) In Japan, semiconductor manufacturers typically use prime wafers as test wafers, so there is little price differential in that regard. The ASP for silicon wafers in Japan and ROW is slightly higher than for polished CZ wafers because of the use of float zone material in discrete fabrication.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 41
Silicon and Epitaxial Wafer Markets
In particular, it is difficult to establish an average selling price for float zone material since there is a wide range in prices. For some applications, such as IC fabrication, the price of float zone material may be less than or equal to the price of a polished Czochralski wafer, on the order of $1.00 per square inch. In other applications, such as the fabrication of power devices and other discretes, thicker wafers of float zone material, as thick as 1000 microns (two to three times thicker than a polished wafer), may be required. The cost of such wafers will be substantially higher, with the price equal to or greater than epitaxial silicon. Dataquest estimates that the average selling price for float zone wafers is on the order of $2.00 per square inch.
Effects of Yen Appreciation
In addition to domestic competition, in 1986 Japanese silicon companies also had to face the pressures of restricted markets overseas because of the yen's appreciation. Silicon wafer pricing has always varied from region to region. However, Japanese silicon companies found it difficult to compete in the U.S. and European markets in 1986 due to large differences in wafer pricing affected by exchange rate factors. For example, in 1984, the average U.S. price of a 100mm wafer was $10.50. At an exchange rate of ¥237/$l, a Japanese silicon company would receive ¥2,490 for a 100mm wafer. In 1986, the U.S. average selling price of a 100mm wafer came down to $10.00. However, at the 1986 exchange rate of ¥167/$1, a Japanese silicon company would now only receive ¥1,750 for a 100mm wafer sold in the United States.
Because of the high yen, Japanese silicon companies exporting silicon wafers to the United States have two options: 1) meet and maintain U.S. average selling prices for wafers and lose on margins in order to maintain U.S. market share and customer relationships, or 2) raise wafer prices in the United States to regain a given yen rate of return, and as a consequence, lose market share. Similar analysis of wafer pricing for 125mm and 150mm wafers confirms that Japanese silicon companies in 1986 were caught between the proverbial rock and a hard place, and had difficulty competing for silicon sales overseas.
Overseas Acquisitions - On the one hand, the high yen has made silicon exports from Japan more difficult. On the other hand, it has made the acquisition of U.S. firms more attractive. As mentioned earlier, in 1986, two Japanese silicon companies chose the latter method of competing in the U.S. market. Mitsubishi Metal acquired Siltec in the third quarter of 1986, and OTC announced its plans in December to acquire U.S. Semiconductor, an epitaxial silicon wafer manufacturer.
42 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 22 indicates that epitaxial wafers represent 29 out of 340 MSI sold in the United States in 1985, or approximately 8.5 percent. Japan's percentage is slightly lower, at about 7.8 percent. Europe's figure is approximately 5.3 percent. In Europe, the percentage is lower t:han for the United States and Japan, we believe, because epitaxial wafer demand for discretes is accounted for by semiconductor manufacturers that do their own epi, such as Philips, Siemens, and Thomson. Remember that the epitaxial million square inches presented in Table 22 do not include epitaxial deposition performed by semiconductor manufacturers, but only merchant silicon company sales of epitaxial wafers to the industry.
Table 22
MERCHANT SILICON AND EPITAXIAL MARKET BY REGION, 1985 (Million Square Inches)
Region
United States Japan Europe ROW
Total
Silicon Wafers MSI
311 529 135 63
1,038
Percent
30.0% 51.0 13.0 6.0
100.0%
Epitaxj MSI
29 45 8
^
85
.al Wafers Percent
34.1% 53.0 9.4 3.5
100.0%
Total Percent
340 30.3% 574 51.1 143 12.7 66 5.9
1,123 100.0%
Source; Dataguest February 1987
Captive Silicon Production
In 1985, eight semiconductor manufacturers grew single crystal silicon to produce wafers for internal consumption. In the United States, these companies were AT&T, Delco, Fairchild, IBM, Motorola, and Texas Instruments. (As previously noted, Fairchild closed its silicon operations in June 1985; Delco stopped internal silicon production in the spring of 1986.) Hitachi in Japan, through its subsidiary, Hitachi Ohme Denshi (Yanai City, Yamaguchi), and Philips in Europe also perform captive silicon production. Table 23 contains Dataguest's estimates of the silicon produced, purchased, and consumed by these eight semiconductor manufacturers in 1985. No distinction is made between silicon and epitaxial wafers in the MSI estimates for the captive silicon producers.
44 © 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 23
CAPTIVE SILICON PRODnCTION AND CONSUMPTION, 1985 (Million Square Inches)
Company
AT&T Delco Fairchild* Hitachi IBM Motorola . Philips Texas Instruments
Location
United States United States United States Japan United States United States Europe United States
Silicon Production
MSI Percent
21 4 3 20 54 23 7 45
60% 57% 17% 30% 60% 55% 30% 75%
Si licon Purchases
MSI
14 3 15 47 36 19 16 15
Percent
40% 43% 83% 70% 40% 45% 70% 25%
Consumed
35 7 18 67 90 42 23 60
Total 177 52% 165 48% 342
*Fairchild's silicon production based on Dataguest estimate of four months operation in 1985
Source: Dataguest February 1987
Total Million Square Inch Marhet
Table 24 combines 1985 million sguare inch sales by the merchant silicon companies (Table 22) and captive silicon production (Table 23) in the four regions of the world. Captive silicon production has been allocated to the semiconductor manufacturer's home region. Internal production by the captive silicon producers, at 150 MSI, accounts for a sizable percentage of the U.S. million sguare inch market of 490 MSI. The captive silicon market in Japan and Europe is much smaller, and ROW has no captive silicon producers at this time. Japan has the largest share of the world million sguare inch market with 594 MSI, or 45.7 percent of the total sguare inch market in 1985.
SEMS Markets and Technology © 1987 Dataguest Incorporated February 45
Silicon and Epitaxial Wafer Markets
Table 24
SILICON AlilD EPITAXIAL MILLION SQUARE INCH MABKET B7 REGION, 1985
Region Merchant Captive Total Percent
United States 340 150 490 37.7% Japan 574 20 594 45.7 Europe 143 7 150 11.5 ROW 6& Q §§. 5.1
Total 1,123 177 1,300 100.0%
Source: Dataquest February 1987
HISTORICAL AND FORECAST DEVICE PRODUCTION BY REGION
The market for silicon and other fabrication materials is dependent upon the level of semiconductor device production in the different regions of the world. This section presents Dataquest's historical and forecast production revenue for captive and merchant semiconductor manufacturers by region of production. The production revenue presented in this section was first published in the SEMS November 1986 newsletter, "The Changing Landscape of Capital Spending."
Historical Production Revenue by Region
Table 25 gives historical merchant and captive worldwide semiconductor production from 1981 through 1986. In this table. United States refers to device production in the United States by either a U.S., Japanese, European, or ROW semiconductor manufacturer. A similar definition applies to producers of semiconductor devices in Japan, Europe, and ROW. (Please note that the regional designation. United States, includes Canadian semiconductor manufacturing activities.)
46 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 25
TOTAL HISTORICAL SEMICONDUCTOR PRODUCTION BY REGION*, 1981-1986 (Millions of Dollars)
CAGR 1981 1982 1983 1984 1985 1986 1981-1986
United States Merchant Prod. $ 7,267 $ 7,260 $ 8,850 $13,428 $10,679 $12,223 11.0% Growth (0.1%) 21.9% 51.7% (20.5%) 14.5%
Captive Prod. 2,466 2,730 3,456 3,733 3,643 4,035 10.4% Growth 10.7% 26.6% 8.0% ( 2.4%) 10.8%
United States $ 9,733 $ 9,990 $12,306 $17,161 $14,322 $16,258 10.8% Growth 2.6% 23.2% 39.5% (16.5%) 13.5%
Japan 5,252 5,584 7,722 12,007 10,655 14,292 22.2% Growth 6.3% 38.3% 55.5% (11.3%) 34.1%
Europe 2,237 2,289 2,434 3,428 3,150 3,793 11.1% Growth 2.3% 6.3% 40.8% (8.1%) 20.4%
ROW 45 98 170 240 339 368 52.2% Growth 117.8% 73.5% 41.2% 41.3% 8.6%
Worldwide Product ion $17,267 $17,961 $22 ,632 $32,836 $28,466 $34,711 15.0%
Growth 4.0% 26.0% 45.1% (13.3%) 21.9%
*Region of dev ice p roduc t ion , no t country of company ownership
Source: Dataquest February 1987
Reference : 1186NL
SEMS Ma rkets and Techno logy © 1987 D a t a q u e s t I n c o r p o r a t e d F e b r u a r y 47
Silicon and Epitaxial Wafer Markets
Production Revenue* Local Currency . - Due to large fluctuations in exchange rates during the last few years, historical Japanese and European semiconductor production revenue is translated into local currencies in Table 26. This is done to more accurately reflect fluctuations in the semiconductor business cycle and thus provide a more appropriate gauge of silicon use. (Currency exchange rates for ROW countries are more closely tied to the U.S. dollar; thus no currency translation is presented for this region.) For comparison, production revenue for Japan and Europe is presented in both dollars and local currency.
Table 26
HISTORICAL SEMICONDUCTOR PRODnCTIOH REVENUE IN LOCAL CURRENCY, JAPAN AND EUROPE
(Millions of Dollars, Billions of Yen, Billions of European Local Currency Units)
1981-1986
Japan ($M) Growth
Exchange Rate (¥/$)
Japan (VB) Growth
Europe ($M) Growth
Exchange Rate (ELC/$)*
Europe (ELC-B) Growth
1981
5,252
221.3
1,162
2,237
112.8
252.4
1982
5,584 6.3%
248.6
1,388 19.4%
2,289 2.3%
128.9
295.0 16.9%
1983
7,722 38.3%
237.9
1,837 32.3%
2,434 6.3%
143.8
349.9 20.8%
1984
12,007 55.5%
237.0
2,846 54.9%
3,428 40.8%
162.4
556.8 55.9%
1985
10,655 (11.3%)
238.0
2,536 (10.9%)
3,150 (8.1%)
168.5
530.7 (13.5%)
1986
14,292 34.1%
167.0
2,387 (5.9%)
3,793 20.4%
136.1
516.3 f2.7%>
CAGE 1981-1986
22.2%
15.5%
11.1%
15.4%
*ELC = European Local Currency Units Base Year, 1978 - 100 Local Currency Units
Source: IMF Dataguest February 1987
48 © 1987 D a t a g u e s t I n c o r p o r a t e d Feb rua ry SEMS Ma rkets and Techno logy
Silicon and Epitaxial Wafer Markets
The conve r s ion from dollar revenue to yen is a straightforward procedure. However, for Europe it is necessary to establish a yearly weighted average of all the individual European currencies. This average is weighted according to the semiconductor consumption of each country and therefore is more relevant as an average currency indicator for the European semiconductor industry. For convenience, this weighted average has been calculated from a base of IQO in the year 1978. The weighted average can be used to interpret the effect of the European currency fluctuations with respect to the U.S. dollar in a given year. It can also provide a better measure of aggregate local currency growth as opposed to U.S. dollar growth. Dataguest uses International Monetary Fund (IMF) average foreign exchange rates for historical data.
Note that while Japanese production revenue grew by 34.1 percent in dollars in 1986, in yen, it was down almost 6 percent. European production revenue was also dramatically affected by currency exchange rates in 1986. Its production revenue grew by 20.4 percent as measured in dollars but was down 2.7 percent as measured in local currency units.
SEMS Markets and Technology © 1987 Dataguest Incorporated February 49
Silicon and Epitaxial Wafer Markets
Forecast Production Reveime By Region
Table 27 presents Dataguest's forecast of production revenue for merchant and captive semiconductor manufacturers by region of production.
Table 27
TOTAL FORECAST SEMTCOMDUCTOR PRODUCTION BY REGION*, 1986-1991, (Millions of Dollars)
CAGR 12M 1987 1988 1989 1990 1991 1987-1991
United States Merchant Prod. $12,223 $14,599 $18,923 $17,959 $20,638 $25,852 15.4% Growth 14.5% 19.4% 29.6% ( 5.1%) 14.9% 25.3%
Captive Prod. 4,035 4,737 5,561 6,529 7,665 8,999 17.4% Growth 10.8% 17.4% 17.4% 17.4% 17.4% 17.4%
United States $16,258 $19,336 $24,484 $24,488 $28,303 $34,851 15.9% Growth 13.5% 18.9% 26.6% 0 15.6% 23.1%
Japan 14,292 16,555 21,104 21,253 24,088 29,181 15.2% Growth 34.1% 15.8% 27.5% 0.7% 13.3% 21.1%
Europe 3,793 4,734 6,090 5,890 7,359 8,936 17.2% Growth 20.4% 24.8% 28.6% ( 3.3%) 24.9% 21.4%
ROW 368 510 750 827 1,063 1,305 26.5% Growth 8f6% 38.6% 47.1% 10.3% 28.5% 22.8%
Worldwide Produc t ion $34,711 $41,135 $52,428 $52,458 $60,813 $74,273 15.9%
Growth 21.9% 18.5% 27 .5% 0 . 1 % 15.9% 22 .1%
•Region of device p roduc t ion , not country of company ownership
Source: Dataguest February 1987
Reference: 1186HL
50 © 1987 D a t a g u e s t I n c o r p o r a t e d F e b r u a r y SEMS Ma rkets and Techno logy
Silicon and Epitaxial Wafer Markets
HISTORICAL AKD FORECAST SILICON CONSUMPTIOH BY REGION
Dataquest assumes that, in a given year, the total square inches of silicon sold by the merchant silicon companies or produced by the captive silicon producers will be consumed by semiconductor manufacturers in that same year. This corresponds to an inventory flow at steady state conditions. With that assumption in mind, the historical and forecast silicon market is presented.
Historical Silicon Consumption by Region
Table 28 contains Dataquest's historical silicon consumption by region. In 1985, all regions except the ROW and the United States captive semiconductor manufacturers had reduced silicon consximption from 1984 values as a result of the industry downturn. U.S. merchant semiconductor manufacturers were worst hit by the industry recession and reduced their silicon consumption by almost 40 percent. Europe and Japan, while down in silicon consumption, did not drop as significantly as the United States, and ROW experienced modest growth in silicon consumption.
In 1986, semiconductor manufacturers producing in the U.S. increased silicon consumption on the order of 15 percent, whereas production revenue grew 13.5 percent in the same year. In contrast, Japanese silicon consumption in 1986 was down 3.5 percent in MSI when compared with 1985 levels as the combined effects of yen appreciation, increased trade friction, and reduced capital spending stalled Japan's semiconductor industry recovery. Although Japanese production increased 34.1 percent in dollars in 1986, production revenue in yen was down 5.9 percent, which tracked closely with the change in silicon consumption. European silicon consximption in 1986 remained at its 1985 level of 150 MSI. Although European semiconductor production revenue grew by 20.4 percent as measured in dollars, production in local currency was down by 2.7 percent, again closely tracking with the change in silicon consumption. ROW showed a healthy increase of silicon consumption in 1986, on the order of 20 percent from 1985 levels.
SEMS Markets and Technology © 1987 Dataquest Incorporated February 51,
Silicon and Epitaxial Wafer Markets
Table 28
TOTAL HISTORICAL SILICON CONSUMPTION BY KEGION*, 1981-1986 (Million Square Inches)
United States Merchant Mfg. Growth
Captive Mfg. Growth
United States Growth
Japan Growth
Europe Growth
ROW Growth
Worldwide Silicon Growth
1981
356
114
470
216
101
12
799
1982
361 1.3%
119 4.0%
480 2.1%
266 23.1%
103 2.0%
26 116.7%
875 9.4%
1983
453 25.6%
113 (5.3%)
566 17.9%
428 60.9%
112 8.7%
46 76.9%
1,152 31.7%
1984
570 25.8%
137 21.2%
707 24.9%
661 54.4%
160 42.9%
63 37.0%
1,591 38.1%
1985
344 (39.6%)
146 6.6%
490 (30.7%)
594 (10.1%)
150 (6.3%)
66 4.8%
1,300 (18.3%)
1986
429 24.8%
135 t7.9%)
564 15.0%
573 (3.5%)
150 0%
79 19.7%
1,366 5.1%
CAGR 1981-1986
3.8%
3.4%
3.7%
21.6%
8.2%
45.8%
11.3%
*Region of silicon consumption, not country of company ownership
Source: Dataquest February 1987
Forecast Silicon Consumption by Region
Table 29 contains Dataguest's forecast of silicon consumption by captive and merchant semiconductor manufacturers by region of device production. In general, we believe that the growth in silicon consumption will follow growth in device production revenue in each of the four regions through 1991. We believe the long-term trend will be
52 © 1987 Dataquest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
for s i l i c o n consiunption (in MSI) to grow more slowly than production revenue (as measured in dollars). This translates to a slowly increasing revenue per square inch as a function of time. Factors that increase revenue per square inch include higher device ASPs and device yields. ASPs will increase as higher-valued products such as ASICs become a larger percentage of the product mix. Yields should improve as manufacturers focus on tighter particulate control and achieve shorter cycle times through manufacturing automation. However, as devices become more complex, die size typically increases. This will slow the upward trend of average revenue per square inch since yields drop with proportionately larger chips.
Table 29
TOTAL FORECAST SILICON CONSUMPTION BY REGION*, 1986-1991 (Million Square Inches)
United States Merchant Mfg. Growth
Captive Mfg. Growth
United States Growth
Japan Growth
Europe Growth
ROW Growth
Worldwide Silicon Growth
1986
429 24.8%
135 n.9%)
564 15.0%
573 (3.5%)
150 0
79 19.7%
1,366 5.1%
1987
514 19.8%
158 17.4%
672 19.3%
651 13.6%
182 22.4%
99 38.6%
1,605 17.5%
1988
681 32.4%
185 17.4%
867 28.9%
814 25.0%
229 26.1%
146 47.1%
2,056 28.1%
1989
586 (13.9%)
218 17.4%
804 (7.2%)
804 (1.3%)
218 (5.2%)
161 10.3%
1,986 (3.4%)
1990
708 20.8%
256 17.4%
964 19.9%
893 11.1%
266 22.5%
207 28.5%
2,330 17.3%
1991
910 28.4%
300 17.4%
1,210 25.5%
1,060 18.8%
317 19.0%
254 22.8%
2,841 21.9%
CAGR 1987-1991
15.4%
17.4%
15.8%
13.0%
14.9%
26.7%
15.4%
*Region of silicon consiimption, not country of company ownership
Source! Dataquest February 1987
SEMS Markets and Technology 1987 Dataquest Incorporated February 53
Silicon and Epitaxial Wafer Markets
WAFER SIZK
The changing mix of wafer size is an indicator of the penetration of leading-edge equipment and new fab capacity. Further, as wafer diameter increases, poly usage increases at a more rapid rate, due to greater wafer thickness at the larger diameters. Estimated percent consumption of MSI of silicon by wafer size for 1982 through 1991 is presented in Table 30. This information reflects Dataguest's estimate of wafer size consumption for semiconductor production in Nortih America.
Dataguest does not expect 125nim wafer consumption to reach the maximum levels of 100mm wafers in the United States. This is because the 125mm wafer is viewed as an interim step in the transition to 150mm wafers. The increase of 125mm wafer consumption to 30 percent of square inches in 1985 is believed to have been caused by difficulties that semiconductor manufacturers had in bringing on-line the fab equipment designed to handle 150mm wafers. This situation, coupled with the industry slowdown during 1985, increased 125mm wafer penetration, slowed the expected rise in 150mm wafer usage, and decreased 3-inch wafer usage.
The lOQmm wafer will continue to account for the highest percent of consumption (as measured in MSI) for U.S. production until 1989. The 150mm wafer category is expected to increase its share throughout the decade and, by 1991, is expected to account for approximately 52 percent of silicon MSI. Although several U.S. semiconductor manufacturers are working with 200mm wafers in research and development, Dataguest does not expect this wafer size to enter the production environment until 1988.
For convenience. Table 30 has been translated into percent wafer starts, presented in Table 31. Wafer starts are calculated by taking the percent consumption for a given wafer size in a given year, multiplying by the U.S. silicon consumption in that year, and dividing by the number of square inches in that given wafer size.
Note that 200mm wafers are forecast to be 4.6 percent of the wafer size mix as measured in MSI in 1991. This translates to only 1.9 percent of the wafer starts in that year. This seeming paradox is due to the proportionately larger area represented by a 200mm wafer—it is almost 1.8 times larger than a 150mm wafer, 2.5 times larger than a 125mm wafer, and 4.0 times larger than a 100mm wafer. In 1991, 100mm wafers will represent approximately 23 percent of the MSI wafer size mix, as compared with 150mm wafers at 52 percent. However, when calculated in wafer starts, an almost equal number of 100mm and 150mm wafers will be going through U.S. semiconductor processing lines in 1991.
54 © 1987 Dataguest Incorporated February SEMS Markets and Technology
Silicon and Epitaxial Wafer Markets
Table 30
UNITED STATES MILLION SQUARE INCH DISTRIBUTION B7 WAFER SIZE (Percent Million Square Inches)
1982-1991
Diame te r
2 i n c h 3 i n c h lOOnun 125nun ISOiiun 200min
T o t a l MSI
1982
3.0% 45.0% 51.0%
1.0% 0.0% 0.0%
480
1983
2 .5% 33.0% 57.0%
6.0% 1.5% 0.0%
566
•
1984
2.0% 21.0% 63.0% 11.0%
3.0% 0.0%
707
1985
0.5% 6.8%
55 .3% 29.9%
7.5% 0.0%
490
1986
0.4% 5.9%
49.9% 28.9% 14.9%
0.0%
564
1987
0.4% 5 .1%
44.4% 27.7% 22.4%
0.0%
672
1988
0 .3% 4.2%
39.0% 25.7% 29.8%
1.0%
867
1989
0.2% 3.4%
33.5% 23.4% 37.2%
2.2%
804
S o u r c e :
1990
0.2% 2.5%
2 8 . 1 % 21 .1% 44.6%
3.4%
964
1991
0 . 1 % 1.7%
22.7% 18.9% 5 2 . 1 %
4.6%
1,210
D a t a q u e s t F e b r u a r y 1987
Table 31
UNITED STATES WAFER START DISTRIBUTION BY WAFER SIZE (Percent Million Wafer Starts)
1 9 8 2 - 1 9 9 1
Diame te r
2 i n c h 3 i n c h 100mm 125mm 150mm 200mm
1982
8.3% 5 5 . 1 % 36.2%
0.5% 0.0% 0.0%
1983
7.6% 44.4% 44 .5%
3.0% 0.5% 0.0%
1984
6.7% 31.4% 54.7%
6 .1% 1.2% 0.0%
1985
2 . 1 % 12.8% 60.5% 20.9%
3.6% 0.0%
1986
1.9% 11.8% 57.4% 21 .3%
7.6% 0.0%
1987
1.7% 10.7% 54.0% 21.6% 1 2 . 1 %
0.0%
1988
1.5% 9.4%
50.4% 21.2% 17 .1%
0 .3%
1989
1.2% 8.1%
46.4% 20.7% 22.9%
0.8%
1990
0.9% 6.5%
41.8% 2 0 . 1 % 29.5%
1.3%
1991
0.5% 4.6%
36.4% 19.4% 37.2%
1.9%
T o t a l (M) 5 5 . 5 5 9 . 6 6 7 . 0 3 6 . 8 4 0 . 3 4 5 . 4 5 5 . 1 4 7 . 8 5 3 . 3 6 1 . 9
S o u r c e : D a t a q u e s t F e b r u a r y 1987
SEMS Markets and Technology © 1987 Dataques t I n c o r p o r a t e d February 55
Silicon and Epitaxial Wiafer Markets
Table of Contents
HEADINS ERGE •L*l. 1
Sunnary 1 Introduction
Definitions and Ootnrenticms 2 Silicon And Epitaxial Wafers 3
Silicon Wafers 3 Epitaxial Wafers 4
Worldwide Merchant silicon Maricet 5 Mercihant Silicon Oonpany Activities 9
united states Silicon Ccnpanies 9 Ji%>anese silicon Ccnpanies 14 European Silicon Companies 22 ROW Companies 26
M urlcet Anzdysis - Company Market Share By Region 27 United states 28 Jaqpan 30 Europe 32 RCW 34 Worldwide Silicm and Epitaxial Sales 36
Market AneLL^is - Wafer Pricing 38 Waifer Pricing Pressures 41 Effects of Yen Appreciation 42
H urket Analysis By Million Square Inches 44 Merchant Silicon Companies 44 Ce ptive Silicon Production 45 Total Million square inch Haidcet 47
Historical And Forecast Device Production Ey Region 48 Historical Pzoduction Revenue by Region 48 Forecast Production Revenue by Region 49
Historical And Forecast Silicon Oonsusption By Region 50 Silicon Oonsunoption by Region 50 Wafer Size 52
'TTIT.T! TITU! PAGE
Table 1 Worldwide Mercihant Silicon Ocnpany Market Shaure, 1987 1
Table 2 Worldwide Merchant Silicm Compamies 6 Table 3 Worldwide Merchant Silicon and E^itax:Lal
Wafer Market, 1987 8 Table 4 Worldwide Merdhant Siliccm Wafer Market, 1987 8 Table 5 Worldwide Merdhant Epitaxied. Wafer
Majdcet, 1987 9 Table 6 Monsanto Electric Materis^s Coopany Silicon
Plant Locations 12 Taible 7 Konatsu Electronic Metaas Silicon Plant
Locations 15 Table 8 Js >an Silicon Plant Locaticois 16
T3fflLE
Silicon and Epitaxial Wafer Markets
'I'lTlE EME
Table 9 Osaka Titaniun Gxoap Silicon Plant Locations 19 Table 10 Shin-Etsu Kmdotal Silicon Plant Locati<»is 20 Table 11 Toshiba Oeramics Silicon Plant Locations 22 Table 12 EMS Electronic Materials Silicon
Plant Locations 23 Table 13 Wadker Silicon Plant Locations 25 Table 14 U.S. Silicon and Epitaxial Wafer Market, 1987 29 Table 15 Je^Muiese silicon and Epitaxial Wafer
Market, 1987 31 Table 16 European Silicon and itaxial Weif er
Market, 1987 33 Table 17 ROW Silicon and Epitaxial Wafer Maricet, 1987 35 Table 18 Worldwide Silic«i and Epitaxial Wafer
Market, 1987 37 Table 19 1987 Regional Avaraige Selling Prices of
Silicon and Epitaxial Wafers Ey Weifer size 39 Table 20 Silicon and Epitaxial Wafers, itel ited
Average Selling Price By Region, 1985-1987 40 Table 21 Historical Vtafer Pricing, united States and
J2Q>an, Polished Czochralski Wafers, 1984-1987 41 Table 22 Merchant Silicon and Epitaxial Market
By Region, 1985-1987 45 Table 23 ce«>tive Silicon Producticm, 1985-1987 46 Table 24 Total Silicon and itaxial wafer Market
By Regicoi, 1985-1987 47 Table 25 Historical Semiconductor Production
By Region, 1982-1987 48 Table 26 Forecast Saniconductor Production
By Region, 1987-1992 49 Table 27 Historical Silicon oonsumption
By Regicm, 1982-1987 50 Table 28 Forecast silicm Oonsumptirai
By Region, 1987-1992 51 Table 29 United States Wafer Size Distribution,
1985-1992 (Percent Million Sgiiare Inches) 52 Table 30 United States wafer Size Distribution,
1985-1992 (Perosnt Killioo Wafer Starts) 53
FiHUKiaS Tims
Figure 1 Regionally Based SilioMi Oonpany in the United States, 1985-1987
Figure 2 Regionally Based Siliccm oonpazxy in Jef>an, 1985-1987
Figure 3 Regi«ially Based Silicon Oonpany in Europe, 1985-1987
Figtore 4 Regicmally Based Silicon Oonpany in ROW, 1985-1987
Figure 5 Regionally Based Silic«i oonpany in the World, 1985-1987
Market Share
Market Share
Market Share
Market Share
Market Share
PaGE
28
30
32
34
36
Silicon and Epitaxial Wafer Markets
SUMMARY
In 1987, silicon and epitaxial wafer sales to the worldwide semiconductor industry by merchant silicon companies was $1,836.0 million. Silicon wafers accounted for $1,406.7 million (76.6 percent) of this figure, and epitaxial wafer sales accoimted for $429.3 million (23.4 percent). These sales represented 1,171 million square inches of silicon wafers and 124 million square inches of epitaxial wafers. The regional average selling price of silicon wafers ranged from $0.85 to $1.47 per square inch, compared with $2.70 to $3.90 per square inch for epitaxial wafers. Several semiconductor manufacturers have captive production of silicon material, which accounted for an additional 113 million square inches of silicon that year. When merchant wafer sales are added to captive silicon production, total silicon consumption amounted to 1,408 million square inches in 1987.
Table 1 summarizes worldwide silicon and epitaxial wafer sales (and market share) for the top six merchant silicon companies in 1987. The market is strongly dominated by four Japan-based silicon companies, Monsanto of the United States, and Wacker of West Germany.
Table 1
Worldwide Merchant Silicon Company Market Share, 1987 (Millions of Dollars)
Company
Shin-Etsu Handotai Mitsubishi Metal Osaka Titanium Company Wacker Komatsu Electronic Metals Monsanto Others
Silicon and Epitaxial Wafer Sales
$ 484.7 265.3 235.5 214.8 197.3 185.0 253.4
Percent Share
26.4% 14.4 12.8 11.7 10.7 10.1 13.8
Total $1,836.0 100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataguest July 1988
SEMS Markets and Technology 0000819
© 1988 Dataquest Incorporated July
Silicon and Epitaxial Wafer Markets
INTRODUCTION
This Study is Dataquest's analysis of the worldwide silicon and epitaxial wafer markets. It presents an overview of merchant silicon company products, market focus, and manufacturing activities. Market share for merchant silicon companies is tabulated by region of silicon and epitaxial wafer sales in 1987. The sales of these companies are estimated in U.S. dollars and converted to millions of square inches using an average selling price for each region. Captive silicon production is included in Dataquest's estimate of worldwide silicon consumption. Historical and forecast semiconductor device production revenue and silicon consumption are summarized by region. The study also presents Dataquest's historical and forecast wafer size distribution by million square inches and wafer starts for the United States. Please note that the regional designation "United States" includes Canadian semiconductor manufacturing activities.
Definitions and Conventions
Silicon Producers
Dataquest defines companies that produce silicon and epitaxial wafers as either merchant silicon companies or captive silicon producers. Merchant silicon companies are suppliers such as Monsanto Electronic Materials Company in the United States, Shin-Etsu Handotai (also known as SEH) in Japan, and Wacker in Western Europe. These three merchant silicon companies, along with approximately 30 other companies worldwide, produce the majority of the silicon consumed by the semiconductor industry today. The name Monsanto is used throughout this study to represent Monsanto Electronic Materials Company, unless otherwise noted.
Silicon is also produced to a lesser extent by both merchant and captive semiconductor manufacturers. Dataquest refers to these semiconductor manufacturers collectively as captive silicon producers because they grow single-crystal silicon to produce wafers for their own internal consumption. Captive producers with significant internal silicon production include AT&T, IBM, Motorola, and Texas Instruments in the United States, Philips in Europe, and Hitachi in Japan.
Semiconductor manufacturers with captive silicon production tend to be established, vertically integrated companies. In the early years of the semiconductor industry, the high cost of silicon provided sufficient economic justification for some semiconductor manufacturers to develop this internal capability. However, high-quality, low-cost silicon wafers have become readily available from a number of merchant silicon companies, and in response to such competitive factors, some semiconductor manufacturers have shut down their silicon operations. Fairchild closed its silicon wafer plant in Healdsburg, California, in Jime 1985, and later sold its silicon production equipment to Pentagood Training, Ltd., a Hong Kong firm, for $3.5 million. This equipment, in turn, was sold to the People's Republic of China. Delco, another semiconductor manufacturer with internal silicon production, discontinued its captive silicon Operations in the spring of 1986. Although Motorola continues to produce single-crystal silicon, the company closed its lOO-metric-ton polysilicon plant in the fall Of 1986.
© 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Merchant or Captive? Some captive silicon producers, such as Motorola and Fairchild (when it was actively producing silicon), have sold small amounts of material on the merchant silicon market. Such captive silicon producers have sold wafers in order to ensure that internal production methods continue to produce material of competitive quality and cost. Dataquest estimates that merchant sales for these companies historically have represented a small percentage of their total captive silicon production, and thus Dataquest identifies these companies as captive rather than merchant silicon producers.
- Dataquest identifies Toshiba Ceramics, a subsidiary of Toshiba Corporation, as a merchant silicon company even though a substantial amount of its silicon production is consumed by its semiconductor parent. However, because Toshiba Ceramics is actively marketing its material on the merchant market, Dataquest considers Toshiba Ceramics to be a merchant rather than a captive silicon producer. Toshiba Corporation is considered to be a customer of Toshiba Ceramics.
Silicon Products
Dataquest defines the merchant silicon wafer market in two product segments: silicon wafers and silicon epitaxial wafers. (Silicon wafers grown by both Czochralski and float zone methods are included.) In the silicon and epitaxial wafer markets analysis, Dataquest does not include sales of polysilicon, single-crystal silicon ingots, silicon materials used in solar applications, or compound semiconductor material substrates such as gallium arsenide.
Several different units are used to describe silicon wafers, including million square inches (MSI), million square centimeters, and wafer or slice equivalents. For the purpose of comparison, all silicon and epitaxial wafer quantities in this study will be defined in units of MSI. The conversion factor between square centimeters and square inches is 6.45 square centimeters per square inch. Wafer or slice equivalents can be translated into MSI by multiplying the number of wafers of a given size by the area of that wafer size as measured in square inches. As an example, 150,000 100mm equivalents are equal to 1.83 MSI.
Although polysilicon production is not a topic of this study, several merchant silicon companies produce polysilicon in addition to single-crystal silicon ingots and wafers. Information regarding poly plant locations and capacities for these companies is included in the merchant silicon company profiles.
SILICON AND EPITAXIAL WAFERS
Silicon Wafers
In the early days of the semiconductor industry, silicon was considered to be one of several materials with semiconductor potential. With the development of planar processing in 1960, polysilicon price reductions, and inexpensive plastic packaging for
SEMS Markets and Technology © 1988 Dataquest Incorporated July 3 0000819
Silicon and Epitaxial Wafer Markets
silicon transistors, silicon took the market from germanium as the basic element used to manufacture semiconductor devices. The history of silicon manufacturing in the United States, and the technology of single-crystal growth and wafer production can be found in two service sections located behind the Wafer Fabrication Materials tab in this binder. These sections are entitled "Silicon History" and "Silicon Technology."
Epitaxial Wafers
Epitaxial processing produces a layer of single-crystal material that has the same crystallographic orientation as the underlying substrate. It is possible to design the epitaxial layer to meet well-defined chemical, physical, and electrical specifications. The epitaxial layer of material is produced by a chemical vapor phase deposition reaction upon a polished substrate, which also has been manufactured to tightly controlled specifications. The substrate of the epi wafer may be doped vmiformly or may include buried layers (isolated regions of heavy doping diffused in a lightly doped substrate). Uniformly doped substrates are used typically in CMOS applications while buried layers are used in bipolar device structures.
CMOS Epi
An area where epitaxy has become important is in CMOS device fabrication. CMOS circuits are especially vulnerable to a condition known as latch-up. In CMOS construction, n-type and p-type wells are in sufficiently close proximity to create parasitic n-p-n-p (silicon-controlled rectifier type) switching structures. Latch-up occurs when such parasitic devices turn on due to a transient condition such as forward biasing produced by a voltage spike. In latch-up, the CMOS device presents a near short-circuit condition across the power supply. The adverse effects of this can range from the interruption of further circuit operation until the condition is removed to physical destruction of the chip. With CMOS design rules approaching the 1-micron regime and gate oxide thicknesses approaching 100 angstroms, latch-up becomes more of a problem. High-resistivity epi layers on low-resistivity substrates is now used as a technique for latch-up hardening (prevention).
Although CMOS epi has been touted as a solution to the problem of latch-up, most semiconductor manufacturers have found the additional cost of an epitaxial wafer (typically 2.5 to 3.0 times the cost of a silicon wafer) prohibitive. To meet the market prices of low-end products, a manufacturer using epi material would have to give up considerable margin and hence profitability. This may be one of the reasons that Texas Instruments reportedly began its 256K DRAM production on epitaxial wafers and later converted to a non-epi process. Dataquest does not expect epi wafers to be used in high-density DRAM device fabrication until the 4-Mbit DRAM era.
In Japan, merchant epi wafer applications are broad based and include discrete and bipolar IC applications in addition to a small percentage of merchant epi wafers for CMOS devices. In contrast, merchant epi wafer applications in the United States have been focused primarily on high-performance, fast CMOS logic and memory devices.
© 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
It appears that there is a shortage of CMOS epi wafers in the United States in 1988. This is because both the merchant silicon companies and semiconductor manufacturers with internal epi operations have not been bujdng epi reactors over the last few years, since both groups have been waiting for new generations of epi reactors to provide high-throughput, low-cost operations. At the same time, more and more fab capacity is being devoted to CMOS technology. In 1987, CMOS represented 41 percent of the square-inch capacity in the United States. In particular, 11 j)ercent was CMOS capacity that was new or upgraded in 1987. In response to this increased epi demand, several merchant silicon companies are expanding their epitaxial wafer capacity at U.S. wafer facilities. In the meantime, while this new capacity is coming on-line, some semiconductor manufacturers will have to scramble for a source of CMOS epi wafers. Dataquest believes, however, that with the new expansions, there will be sufficient capacity available to meet demand from U.S. semiconductor manufacturers in 1989.
Epitaxial Services—^Japanese Style
Semiconductor manufacturers in the United States have three sources of epitaxial silicon wafers: larger merchant silicon companies (such as Monsanto, SEH America, and Wacker), small custom epitaxial houses, or internal epitaxial wafer production. Japan has no equivalent to the United States' small custom epitaxial houses, so Japanese silicon companies have taken on the responsibility for providing custom epitaxial wafer specifications. For example, in the case of buried layers for bipolar IC applications, a Japanese silicon wafer company will obtain the photomask from a customer and perform the lithography, selective diffusion, and deposition of the epitaxial layer. This "fabricated" epitaxial wafer with its buried layer is then returned to the customer. This allows the Japanese semiconductor manufacturer to minimize investment in equipment and processes, and instead devote resources to design and new process development. Dataquest believes that the practice of providing photomasks to silicon manufacturers for buried layer processing is far more prevalent in Japan than in the United States because of the close relationship between vendor and customer in Japan.
WORLDWIDE MERCHANT SILICON MARKET
Table 2 contains a list of merchant silicon manufacturers that were active in the world market in 1987. This list, organized by region of corporate ownership, summarizes whether a company offers silicon and/or epitaxial wafers. Eleven of the 32 companies are United States-based silicon suppliers, 10 are Japan-based, 6 are Europe-based, and 5 are based in ROW, in particular, Korea and Taiwan. Since 1985, three U.S. merchant silicon companies—NBK Corporation, Siltec Corporation, and U.S. Semiconductor—have been acquired by Japanese corporations. These three companies are listed in Table 2 under their respective Japanese corporate parents. Table 2 also indicates that three companies recently closed their silicon operations—Silicon Services in 1986 and Gensil and Rhone-Siltec in 1987.
SEMS Markets and Technology © 1988 Dataquest Incorporated July 0000819
Silicon and Epitaxial Wafer Markets
Of the 32 merchant silicon companies actively supplying wafers in 1987, 16 manufacturers supply epitaxial wafers, 25 supply silicon wafers, and 9 companies provide both types of wafers. Three companies—NBK Corporation, Siltec Corporation, and Showa Denko—expect to be producing epitaxial wafers in the 1988 time frame. (These three companies are not included in the count of epitaxial wafer suppliers in 1987.)
The manufacturing activities of these 32 merchant silicon companies are summarized in the following sections. Silicon wafer companies in Brazil and India (not listed in Table 2) are discussed in the section entitled "ROW-Based Silicon Companies."
Table 2
Worldwide Merchant Silicon Companies
Cpmpeny
U.S. Companies Cincinnati Milacron Crysteco, Inc. Epitaxy, Inc. Gensil* General Instruments Power Semiconductor
M/A-COM Monsanto Electronic Materials Company Pensilco Recticon
Division
Spire Corporation Virginia Semiconductor
Silicon Wafers —"
X
X
X X X
X
Epj Ltazial Wafers
• X
X
X X
X
X
Japanese Companies Kawasaki Steel NBK Corporation Komatsu Electronic Metals Mitsubishi Metal Japan Silicon Siltec Corporation Nittetsu Denshi Osaka Titanium Company U.S. Semiconductor Shin-Etsu Handotai Showa Denko Toshiba Ceramics
X X
X X X X
X X X
(X-1988) X
X (x-1988)
X X X X
(X-1988) X
(Continued)
© 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 2 (Continued)
Worldwide Merchant Silicon Companies
silicon Epitaxial Company Wafers Wafers
European Companies DNS Electronic Materials X X Okmetic X Rhoue-Siltec* X Siltroniz SA X Topsil Semiconductor Materials A/S X Wacker X X
ROW Companies Korea
Korsil X Lucky Advanced Materials, Inc. X
Taiwan Hermes Epitaxy X Sino-America X Tatung Company X
*Gensil and Rhone-Siltec closed operations in 1987. Silicon Services (not listed)/ a small United States-based epitaxial wafer supplier, left the market in 1986.
Source: Dataquest July 1988
Tables 3, 4, and 5 present the combined and separate sales of silicon and epitaxial wafers by regionally based merchant companies to given regions of the world. For example, in these tables, Shin-Etsu Handotai's worldwide sales, which include the sales of Shin-Etsu's U.S. subsidiary, SEH America, are included under the heading "Regional Corporate Ownership—Japan." Similarly, the worldwide sales of Europe-based Wacker Chemitronic include the sales of its U.S. affiliate, Wacker Siltronic. The activities of each of the regionally based merchant silicon companies are discussed in the sections to follow. Market share analysis for silicon and epitaxial wafer sales in each of the four regions of the world are presented in a later section.
SEMS Markets and Technology © 1988 Dataquest Incorporated July 0000819
Silicon and Epitaxial Wafer Markets
Table 3
Worldwide Merchant Silicon and Epitaxial Wafer Market, 1987 (Millions of Diollars)
Region of Sales
United States Japan Europe ROW
Total
Percent
Regiona l Corporate United States
$176.2 23.8 31.9 22,9
$254.8
13.9%
Japan
$ 126.1 1,108.4
34.4 11.3
$1,280.2
69.7%
Ownership Europe
$ 90.1 9.9
154.7 38,4
$293.1
16.0%
ROW
0 0 0
$7.9
$7.9
0.4%
Total
$ 392.4 1,142.1 221.0 80.5
$1,836.0
100.0%
Note: Columns may not add to totals shown because of rounding.
Source; Dataguest July 1988
Table 4
Worldwide Merchant Silicon Wafer Market, 1987 (Millions of Dollars)
Region of Sales
United States Japan Europe ROW
Total
Percent
Un Reaional Coroorate
ited States
$111.1 22.0 21.3 17.0
$171.4
12.2%
Japan
$105.9 827.1 31.0 10.6
$974.6
69.3%
Ownership Europe
$ 79.1 9.9
126.8 38.2
$254.0
18.1%
ROW
0 0 0
$6,7
$6.7
0.5%
Total
$ 296.1 859.0 179.1 72.5
$1,406.7
100.0%
Note: Columns may not add t o t o t a l s shown because of rounding .
Source: Dataquest July 1988
© 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 5
Worldwide Merchant Epitaxial Wafer Market, 1987 (Millions of Dollars)
Region of Sales
United States Japan Europe ROW
Total
Percent
Regional Coxporate Ownership United States
$65.1 1.8
10.6
5,9
$83.4
19.4%
J?ip?'»
$ 20.2 281.3 3.4 0.7
$305.6
71.2%
Europe
$11.0 0
27.9 0,2
$39.1
9.1%
ROW
0 0 0
$;-3
$1.2
0.3%
Total
$ 96.3 283.1 41.9 8.0
$429.3
100.0%
Note: Columns may not add t o totals shown because of rounding.
Source: Dataguest July 1988
MERCHANT SILICON COMPANY ACTIVmES
United States Silicon Companies
Eleven United States-based merchant silicon companies supplied the semiconductor industry with wafers in 1987. These manufacturers accounted for $254.8 million in silicon and epitaxial wafer sales, or 13.9 percent of the world's $1,836.0 million silicon and epitaxial wafer market in 1987. Two of the eleven merchants accoimted for 86.0 percent of the United States-based silicon and epitaxial wafer manufacturers' sales; these are Monsanto and Cincinnati Milacron. The remaining nine companies are of two categories: small silicon wafer manufacturers and small custom epitaxial houses. (Note: Monsanto is the only United States-based silicon manufacturer to supply both silicon and epitaxial wafers to the semiconductor industry.) In particular, these smaller silicon and epitaxial houses are pursuing niche markets by providing relatively small quantities of material that meet customers' specific requirements. The smaller companies, for the most part, have chosen not to compete with the larger silicon companies for commodity wafer sales.
SEMS Markets and Technology 0000819
© 1988 Dataqiiest Incorporated July
Silicon and Epitaxial Wafer Markets
Cincinnati Milacron
Cincinnati Milacron is the largest epitaxial wafer supplier in the United States, with epi wafer sales of approximately $34.0 million in 1987. Cincinnati Milacron's manufacturing facility is in Maineville, Ohio. Dataquest estimates that approximately 70 percent of the company's epi business is for discrete semiconductor devices, with the remaining 30 percent directed at CMOS applications. Cincirmati Milacron builds its own epitaxial reactors, which are not for sale on the commercial epitaxial reactor market. In 1985, the Maineville manufacturing facility was expanded. When fully equipped, it would have production capacity to generate $125.0 million in epitaxial wafer sales per year. In addition to epitaxial wafers, the company is a major manufacturer of processing systems for the metalworking and plastics industries. It also builds robots and metrology and inspection systems for industrial automation applications.
In February 1988, Cincinnati Milacron announced a reorganization strategy that includes plans to sell its Semiconductor Materials (epitaxial wafers) division, in addition to restructuring its machine-tools and robot operations. The company posted a fourth-quarter charge of $83 million related to the restructuring program. This charge included a $17 million write-down in assets of its epitaxial wafer division.
Crysteco, Inc.
Crysteco, Inc., of Wilmington, Ohio, supplies silicon wafers to the semiconductor industry. The company specializes in supplying arsenic-doped silicon material. All material grown is Czochralski silicon, though Dataquest believes that Crysteco provides some slice and polish services for float zone ingots. Dataquest's estimate for Crysteco's wafer sales in 1987 is $9.5 million, which places Crysteco as the second-largest United States-based supplier of silicon wafers, after Monsanto. In addition to selling wafers, the Company sells a small amount of single-crystal silicon ingots.
Epitaxy, Inc.
Epitaxy, Inc., is an epitaxial wafer company in Santa Clara, California; the company was established in 1972. Dataquest estimates that Epitaxy, Inc., had epitaxial wafer sales of $7.0 million in 1987, of which 65 percent was outside of the United States. Epitaxy, Inc., does not grow any substrate material, but rather purchases it from other merchant silicon manufacturers. Like the other small custom epi houses, it is pursuing niche market applications and has opted not to compete in the CMOS epi wafer market.
General Instruments—Power Semiconductor Division
The Power Semiconductor Division of General Instruments (Westbury, New York) manufactures epitaxial wafers. Most of its epi wafers are used in-house, but a small number is sold on the merchant market. Major applications for its epitaxial wafers include microwave and radio frequency (RF) discrete devices.
10 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Gensil
Until it ceased oi>erations in September 1987, Gensil was a small silicon wafer company located in Garland, Texas. It manufactured silicon wafers to custom Specifications for discrete device applications (such as zener diodes, which require tight resistivity profiles) and provided silicon substrate suitable for epitaxial deposition. Gensil was closed by its corporate parent. General Semiconductor Industries, a Tempe, Arizona, semiconductor device company that manufactures discrete devices such as diodes and switching and power transistors. Gensil provided silicon wafers from 1 inch to 100mm in diameter.
M/ACOM
M/A-COM Semiconductor Products (Burlington, Massachusetts) produces epitaxial Silicon wafers for the semiconductor industry. It offers epi wafers from 3 inches to 125mm in diameter. These wafers are used primarily in discrete device applications, with a small amount used in CMOS processing as well.
In 1985, M/A-COM produced 50 percent of its silicon substrate material and purchased 50 percent from other companies. In 1986, however, M/A-COM decided to curtail its single-crystal growth operations. The Company now obtains all of its silicon substrate requirements from other merchant silicon companies.
Monsanto Electronic Materials Company
Monsanto Electronic Materials Company (headquartered in Palo Alto, California) is the largest United States-based silicon company and ranks sixth in the world, with silicon and epitaxial wafer sales of $185.0 million in 1987, or 10.1 percent of the $1,836.0 million world market. Monsanto Electronic Materials Company is one of the operating groups of the Monsanto Company, a St. Louis-based chemical giant with sales of $7.64 billion in 1987. (Please note that the name Monsanto is used throughout this Study to represent Monsanto Electronic Materials Company, tmless otherwise noted.) Table 6 summarizes Monsanto's silicon facilities and plant activities. In Table 6, polysilicon refers to the location of a polysilicon plant; single-crystal ingot refers to the growth of silicon ingots at a given location; and wafers refers to the slicing, lapping, and polishing activities associated with wafer preparation.
Monsanto's polysilicon and single-crystal operations are United States-based. Polysilicon capacity (the facility currently is not operational) is approximately 210 metric tons at the Saint Peters plant. Both the Saint Peters plant and the newer Spartanburg facility grow single-crystal silicon ingots and produce wafers; epitaxial wafer production is done in Saint Peters. Wafer capacity at Monsanto's U.S. facilities is approximately 325 MSI. Monsanto's overseas facilities obtain single-crystal silicon and etched wafers from the U.S. plants to produce polished wafers for their respective local markets.
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Table 6
Monsanto Electronic Materials Company Silicon Plant Locations
Location
Saint Peters, Missouri Spartanburg,
South Caro l ina Kuala Lumpur Gumi
Country
United States
United States Malaysia South Korea
PolYsilicon
z
Single-Crystal Ingots
X
X
Technical Wafers Center
X X X
Utsonomiya, Tochigi Japan X X Milton Keynes United Kingdom --- X X
Source: Dataguest July 1988
Three new offshore wafer facilities, in Korea, Japan, and the United Kingdom, became operational in 1986. Each new plant has a 20 MSI wafer capacity, which can be expanded for future requirements. This offshore wafer manufacturing is part of Monsanto's strategy to better penetrate overseas markets.
Korean Activities. Monsanto's Korean silicon facility is a 50-50 joint venture with Dongbu Industrial Company. The joint venture is named Korsil Company, Ltd., and is located in Gumi, adjacent to the country's developing semiconductor industry. As mentioned previously, the facility has an initial capacity of 20 MSI, however it has been designed for a capacity increase of up to 5 million 100mm wafers, or 60 MSI. (Please note that Korsil's silicon wafer sales are listed separately from Monsanto's sales.) Other Monsanto activities in Korea have included an agreement to become a major supplier of wafers to Samsung, Korea's largest semiconductor manufacturer. Monsanto has been working with Samsung engineers to customize wafer specifications to Samsimg's processing requirements.
Japanese Activities. Dataquest estimates that Monsanto is the largest non-Japanese supplier of silicon and epitaxial wafers in Japan, with 1987 sales of $23.4 million, or 2.0 percent of the $1,142.1 million Japanese market. Dataquest estimates that other foreign silicon company wafer sales accounted for an additional 1.0 percent of market share in this region in 1987. Even with the favorable currency exchange rate and the political pressures of trade imbalance between the United States and Japan, foreign-based silicon company market share has increased only marginally from a 2.3 percent share in 1985 to 3.0 percent in 1987.
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Silicon and Epitaxial Wafer Markets
Pensilco
Pensilco is a small silicon wafer manufacturer in Bradford, Pennsylvania. It Specializes in small-diameter wafers, which range from 1 inch to 100mm in diameter. It provides customized silicon wafers, especially for zener diode fabrication. The company Started its silicon operations in 1958 imder the name of Allegheny Electronics; the Pensilco name was adopted in 1976.
Recticon
Recticon is a small silicon wafer company in Pottstown, Pennsylvania. Dataquest estimates that Recticon's 1987 worldwide silicon wafer sales were $7.0 million. Rockwell International sold Recticon to Walker International in the first quarter of 1986. (Walker plans to use the acquisition to move out of its traditional business, photo processing.) Recticon has established a niche business supplying very thin and smaller-size wafers, but currently can produce wafers from 1 inch to 12Smm in diameter. In addition, Recticon specializes in growing single-crystal silicon with imusual crystal orientations. Recticon has attracted interest from semiconductor R&D groups that want to use silicon wafers with unusual orientations as substrates for gallium arsenide-K)n-silicon processing.
Silicon Services
Silicon Services (Santa Clara, California) was a small, epitaxial wafer supplier in the Silicon Valley. (Dataquest believes that the company closed its operations in 1986.) Its primary product was epitaxial wafers for power transistors; other application markets included epitaxial wafers for bipolar processing and a small amoimt of CMOS. Silicon Services did not grow its own substrate material. Instead, it purchased from other merchant silicon companies or obtained the material directly from its customers (as in the case of bipolar applications where the customer had already prepared a buried layer, followed by ion implantation). Silicon Services supplied epitaxial wafers between 2 inches and 125mm.
Spire Corporation
Spire Corporation (Bedford, Massachusetts) supplies epitaxial silicon wafers to the semiconductor industry. Spire provides 2-inch, 3-inch, and 100mm epi wafers and focuses on meeting custom epitaxial specifications for microwave devices and discretes. The company has chosen not to pursue the MOS epitaxial wafer market. In addition to silicon epitaxial wafers, Spire supplies compound semiconductor epitaxial wafers and is a major manufacturer of MOCVD equipment.
Virginia Semiconductor
Virginia Semiconductor, a small silicon wafer manufacturer in Fredericksburg, Virginia, specializes in small-diameter wafers (from 1 to 3 inches) and offers very thin wafers of three-mil (0.003-inch) thickness. Founded in 1978, Virginia Semiconductor Started production of float zone and Czochralski single-crystal ingots in Jime 1979.
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Japanese Silicon Companies
Ten Japan-based merchant silicon companies supplied the semiconductor industry with wafers in 1987. These ten manufacturers accounted for $1,280.2 million in silicon and epitaxial wafer sales. This amounted to 69.7 percent of the world's $1,836.0 million silicon and epitaxial wafer market that year. Dataquest estimates that Shin-Etsu Handotai's worldwide silicon and epitaxial sales were $484.7 million, or approximately 37.9 percent of the Japan-based silicon company sales. Japanese merchant silicon companies differ from the majority of their Europe- and United States-based competitors in that almost all ten Japanese companies provide the semiconductor industry with both epitaxial and silicon wafers.
Kawasaki Steel, NBK Corporation
NBK Corporation (Santa Clara, California) is a small silicon wafer manufacturer located in the Silicon Valley. In the third quarter of 1985, NBK was purchased by Kawasaki Steel for $9.36 million. The acquisition is part of the Japanese steelmaker's Strategy for diversification into electronic materials. Kawasaki Steel invested $8.3 million in NBK in 1986 to upgrade to 150mm wafer capability and improve silicon wafer quality control with a class-10 clean room environment; as a result, an incremental amoimt of capacity was added, on the order of 10 to 15 percent. In 1986, NBK Started sampling silicon wafers in Japan. Dataquest expects that with Kawasaki Steel's backing, NBK's wafer sales to Japan will increase as a percentage of total sales. NBK is expected to start supplying epitaxial wafers in 1988.
Dataquest estimates that NBK's wafer sales in 1987 were $7.0 million. In this market analysis, NBK is identified as a United States-based silicon company in 1985 and a Japan-based company in 1986 and 1987.
Komatsu Electronic Metals Co., Ltd.
Komatsu Electronic Metals, ranking fifth overall in worldwide sales, is a major supplier of silicon and epitaxial wafers to the Japanese market. Its 1987 sales were $197.3 million (10.7 percent worldwide market share). Komatsu Electronic Metals was incorporated in 1960 as an affiliate of Komatsu, Ltd.
Table 7 contains the locations and plant activities of Komatsu's silicon facilities. The Hiratsuka facility produces polysilicon, single-crystal silicon, and some wafers. The Kyushu Komatsu plant in Miyazaki produces most of the company's polished wafers. Komatsu's Nagasaki Plant was opened in 1985 and produces epitaxial wafers. Expansion to produce single-crystal silicon at Nagasaki was to be completed by Jime 1988. Komatsu supplies both Czochralski and float zone material to the semiconductor industry. It ranks as one of the three major float zone suppliers in the world (Shin-Etsu Handotai and Wacker are the others).
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Table 7
Komatsu Electronic Metals Silicon Plant Locations
Location
Head Off ice and Plan t Hiratsuka Ci ty , Kanagawa Prefecture
Nagasaki Plant Omura C i t y , Nagasaki Prefecture
Kyushu Komatsu E l e c t r i c Co . , Ltd . Kiyotake C i t y , Miyazaki Prefectu re
Polysilicon
X
Single-Crystal Ingots
X
X
Source:
Wafers
X
X
X
Dataguest July 1988
Komatsu both produces polysilicon for its own needs and purchases it from the merchant market to supplement its supply. Its polysilicon capacity is approximately 100 metric tons as of January 1987. Komatsu manufactures polysilicon by a proprietary method that employs monosilane gas. This method, known as the Komatsu method, uses crude silica as a source of silane gas that is refined to high purity, then decomposed into very high-purity polycrystalline silicon material. Union Carbide Corporation is the only polysilicon producer in the world that has licensed the Komatsu method. In addition to its internal usage of silane in polysilicon production, Komatsu Electronic Metals is also a major supplier of high-purity silane to the semiconductor industry for processing applications such as epitaxy and chemical vapor deposition.
Mitsubishi Metal Ccnporation
Mitsubishi Metal Corporation of Japan has two subsidiaries that are silicon wafer manufacturers: Japan Silicon (also known as Nippon Silicon or JASIL) and Siltec Corporation, which was acquired in 1986. Mitsubishi Metal ranked as the world's second-largest silicon and epitaxial wafer supplier in 1987, with sales from its two subsidiaries Of $265.3 million, or 14.4 percent of the $1,836.0 million world market. In addition to silicon wafers, Mitsubishi Metal is a major supplier of gallium arsenide wafers to the semiconductor industry.
Japan Silicon. Japan Silicon is a major Japanese supplier of silicon and epitaxial wafers. Dataquest estimates that Japan Silicon had 1987 world sales of $238.0 million.
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The history of Japan Silicon is thus: Japan Electronic, then part of Mitsubishi Metal, merged with Chisso Denshi to form a silicon operation called Toyo Silicon (Toyo means Asia in Japanese). Seven or eight years ago, Toyo Silicon's name was changed to Japan Silicon, which is often shortened to JASIL. Japan Silicon has been active in the sales and promotion of its products in the United States for the last two to three years.
Table 8 gives the location of Japan Silicon's manufacturing facilities and plant activities. Both the Ikuno and Noda facilities have single-crystal silicon operations and wafer production. The Noda Plant produces 3-inch to 200mm wafers, whereas the Ikuno Plant produces 125mm and 150mm wafers. Yamagata Silicon obtains ingots of single-crystal silicon from its sister plants and produces 100mm to 150mm wafers. Epitaxial wafer activity takes place at the Noda Plant.
Table 8
Japan Silicon Plant Locations
S i n g l e -Crystal
Location P o l y s i l i c o n Ingots Wafers
Ikuno Plan t Asaki D i s t r i c t , Hyogo Prefecture X X
Noda Plan t Noda C i ty , Chiba Prefecture X X
Yamagata S i l i c o n Yonezawa C i t y , Yamagata P refecture X
Source: Dataguest July 1988
Japan Silicon obtains most of its polysilicon materials from Hi-Silicon Co., Ltd. (also known as Kojundo Silicon), located in Yokkaichi City, Mie Prefecture. Hi-Silicon was formed in 1967 as a joint venture between Mitsubishi Metal and Osaka Titanium Company (OTC). Through this joint venture, Japan Silicon and OTC have been entitled to equal amounts of polysilicon capacity at the Hi-Silicon facility, which has a total capacity of 1,080 metric tons. In October 1987, Osaka Titanium aimounced that it had sold its 50 percent position in Hi-Silicon to Mitsubishi Metal for an undisclosed sum. In addition to its interest in Hi-Silicon, Mitsubishi Metal Corporation has a 12.25 percent equity position in Dow Coming's polysilicon subsidiary, Hemlock Semiconductor.
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Silicon and Epitaxial Wafer Markets
Siltec Corporation. Siltec Corporation (Menlo Park, California) consists of two business units: Siltec Silicon, a merchant silicon wafer supplier; and Cybeq Systems, a manufacturer of production, transport, and test equipment used in silicon production operations. The company was founded in 1969 by Robert Lorenzini, a recognized pioneer in the field of crystal growing. (Please note that the name Siltec is used throughout this study to represent Siltec Corporation's business division, Siltec Silicon, imless otherwise noted.)
In September 1986, Siltec agreed to an acquisition by Mitsubishi Metal Corporation of Japan for approximately $33 million. The acquisition includes both Siltec Silicon and Cybeq Systems. Mitsubishi Metal Corporation is a multibillion dollar, multinational corporation headquartered in Tokyo. (Mitsubishi Metal and Mitsubishi Electric Corporation, the semiconductor manufacturer, are both members of the same industrial group, the Mitsubishi Group.) Mitsubishi Metal's wholly owned subsidiary, Japan Silicon (also known as Nippon Silicon or JASIL), is a major silicon manufacturer in Japan. The Siltec acquisition was financed 60 percent by Mitsubishi Metal, 30 percent by Mitsubishi Mining and Cement, and 10 percent by Mitsubishi Corporation.
Siltec began operations in Salem, Oregon, in October 1982. In mid-1985, Siltec's California silicon production facilities were relocated and consolidated in Salem from operations in Menlo Park and Mountain View. In November 1987, Siltec announced a 60 percent phased expansion and modernization program for the Salem facility. Scheduled completion for the $30 million modernization program is mid-1988. In February 1988, the company aimounced its decision to construct an epitaxial wafer facility adjacent to the Salem wafer plant. Siltec currently supplies epitaxial wafers through a manufacturing and technology agreement with Japan Silicon, Siltec's sister company in Japan.
Over the past several years, Siltec expanded its activities overseas through joint venture and technology licensing strategies. In 1984, Siltec entered into an agreement with Rhone-Poulenc of France to manufacture silicon wafers in France for distribution to semiconductor manufacturers in Western Europe. The joint venture, Rhone-Siltec, began pilot production in September 1985 at a facility near Mantes-la-Jolie (100 kilometers west of Paris). Rhone-Siltec, with a capacity of 20 MSI, focused on wafer slicing, polishing, and lapping operations. In the fourth quarter of 1987, the company closed its facility after three years of operation because the company was unprofitable.
In October 1985, Siltec atmounced the licensing of its silicon technology to Lucky Advanced Materials of Korea, an affiliate of the Lucky-GoldStar group. Lucky Advanced Materials agreed to pay Siltec $4 million plus royalties for the technology. The Lucky Advanced Materials silicon facility is in Gumi and started production in February 1987. Wafer capacity at this facility is on the order of 20 MSI. The Lucky Advanced Materials plant is the only facility in Korea that has single-crystal silicon growth and wafer production operations.
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Silicon and Epitaxial Wafer Markets
Nittetsu Denshi
Nittetsu Denshi is a new company supplying the semiconductor industry with silicon and epitaxial wafers. The company was established as a wholly owned subsidiary of Nippon Steel in June 1985. (Note: Nittetsu Denshi is also referred to as NSC Electron Corporation; NSC stands for lSIippon Steel Corporation and denshi refers to electronics.) The silicon wafer facility is in Hikari City, Yamaguchi Prefecture. Sampling of CZ polished wafers began in the fall of 1986, with production wafers available in April 1987. Nittetsu Denshi is focusing on 125mm and 150mm wafers and currently has capacity for 2 million polished wafers per year. Epitaxial wafer sampling commenced in the latter half of 1987.
Nippon Steel, Nittetsu Denshi's parent, is one of several Japanese steel manufacturers diversifying from its traditional stmset industry, steel, into the sunrise industries, such as electronic materials. In addition to financial backing, the steelmaker can provide its new venture with a strong background in support technologies for silicon manufacturing, such as molten materials processing, crystal growth control, and precision measurement.
Osaka Titanium Company
Osaka Titanium Company (OTC) is the Japanese semiconductor industry's third-largest silicon supplier, and with its U.S. subsidiary, U.S. Semiconductor, OTC ranked third in the world, with sales of $235.5 million (12.8 percent of the world market) in 1987. OTC is part of the Osaka Titanium Group along with Kyushu Electronic Metals Co. The company produces both silicon (Czochralski and float zone) and epitaxial wafers. OTC started research on silicon for semiconductor applications in 1957 and built its first polysilicon facility in 1960. In 1984, OTC completed a new poly facility in Amagasaki (current capacity of 720 metric tons per year).
Until recently, OTC also had access to polysilicon capacity at Hi-Silicon located in Yokkaichi City, Mie Prefecture. Hi-Silicon (also known as Kojundo Silicon) was established in 1967 as a joint venture between Mitsubishi Metal and Osaka Titanium Company in which both companies shared equally in the 1,080-metric-ton capacity of the Hi-Silicon plant. In October 1987, Osaka Titanium armounced that it had sold its 50 percent position in Hi-Silicon to Mitsubishi Metal for an undisclosed sum.
Kyushu Electronic Metals was established in 1973, with OTC and Sumitomo Metal Industries as the major stockholders. All of OTC's wafers are produced at the Kyushu Electronic Metals facilities in the Saga Prefecture. Kjoishu Electronic Metal's first wafer facility was built in 1975; its newest silicon plant, in Imari City, was completed in 1984. The Imari Plant has the capability of manufacturing 125mm, 150mm, 200mm, as well as 250mm wafers.
OTC is a fully integrated producer of silicon from trichlorosilane (source material for polysilicon) to the finished wafer. The company produces both silicon (Czochralski and float zone) and epitaxial wafers. Table 9 shows the locations and activities of silicon facilities within the Osaka Titanium Group, including U.S. Semiconductor.
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Table 9
Osaka Titamum Groiq> Silicon Plant LocaticHis
S i n g l e -Crystal
Location Polys11jgon Ingots Wafers
Osaka Titanium Company Head Off ice and Plan t .it' X
Amagasaki, Hyogo Prefecture Kyushu E lec tron i c Metal Co./ Ltd .
Head Off ice and Plan t X X Kishima D i s t r i c t , Saga Pre fec tu re
Imari P lan t Imari C i t y , Saga P r e f e c t u r e X
U .S . Semiconductor Fremont, C a l i f o r n i a X
Source; Dataguest July 1988
U.S. Semiconductor. U.S. Semiconductor (Fremont, California) manufactures epitaxial wafers for MOS and discrete device applications. The company, founded in 1984, was privately held until its acquisition by OTC in December 1986. U.S. Semiconductor supplies the semiconductor industry with 3-inch through 150mm epi wafers. The company recently expanded capacity at its wafer facility in Fremont. OTC's West Coast sales and marketing organization, OTC America, was changed officially to OTC Semiconductor Corporation on July 1, 1988. U.S. Semiconductor and OTC Semiconductor now share the same facilities in Fremont.
SMn-Etsu Handotai
Shin-Etsu Handotai (also known as SEH) is the largest silicon and epitaxial wafer company in the world, with 1987 sales of $484.7 million, or 26.4 percent of the $1,836.0 million market. SEH is also the largest merchant silicon company in Japan, with 1987 silicon and epitaxial wafer sales of $402.7 million, or 35.3 percent of the $1,142.0 million market. Shin-Etsu Handotai was formed as a joint venture between Shin-Etsu Chemical and Dow Corning in 1967. In 1979, Shin-Etsu Chemical acquired full ownership of Shin-Etsu Handotai. Shin-Etsu Handotai's subsidiaries and affiliates include SEH America, SEH Europe, and SEH Malaysia.
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Like several of the major silicon merchant companies, Shin-Etsu Handotai's silicon manufacturing is vertically integrated, from polysilicon to polished wafers. Polysilicon facilities are at the Naoetsu factory (part of Shin-Etsu Chemical) and the Isobe factory. Polysilicon capacity is currently about 150 metric tons per year. Shin-Etsu Handotai has a 24.5 percent equity position in Hemlock Semiconductor, the Dow Corning polysilicon subsidiary, and obtains additional polysilicon from other vendors to supplement its needs.
Shin-Etsu Handotai is a major manufacturer of both Czochralski and float zone material. Float zone ingots are grown at the Isobe and Saigata facilities; Czochralski ingots at Isobe, Shirakawa, and Takefu, as well as Vancouver, Washington, and Livingston, Scotland. Shin-Etsu Handotai produces epitaxial wafers at the Isobe and Shirakawa factories in Japan, and overseas at Vancouver and Livingston. In the second quarter of 1988, SEH America completed an expansion of its epitaxial manufacturing capacity at the Vancouver facility. Shin-Etsu Handotai's world headquarters are in Tokyo, and its R&D centers are in Isobe and Vancouver. In addition to silicon products, Shin-Etsu Handotai manufactures gallium arsenide and gallium phosphide through a joint venture with Furukawa Mining known as Iwaki Handotai. Table 10 summarizes Shin-Etsu Handotai's silicon plant locations and activities.
Table 10
Shin-Etsu Handotai Silicon Plant Locations
s ing le-Crystal ^
Location Polys i l icon Ingots Wafers
Isobe Plant Annaka City, Gunma Prefecture H X X Nagano Plant X Naoetsu Plant Jyoetsu City, Niigata Prefecture X X Saigata Plant Kubiki Town, Niigata Prefecture X Shirakawa Plant Nishishirakawa, Fukushima Prefecture X X Takefu Plant Takefu District, Fukui Prefecture X Kuala Lumpur, Malaysia X Vancouver, Washington, United States X X Livingston, Scotland, United Kingdom X X
Source: Dataguest July 1988
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Silicon and Epitaxial Wafer Markets
Showa Denko
Showa Denko (along with Nittetsu Denshi) is one of the new entrants in the Japanese silicon market. The company began actively sampling its wafers in the third quarter of 1986.
In addition to its silicon wafer operations, Showa Denko provides a broad mix of electronic materials to semiconductor manufacturers, including compound semiconductor materials (gallium arsenide, gallium phosphide, and indium phosphide) and high-purity specialty gases (such as silane, hydrogen chloride, boron trichloride, nitrogen trifluoride, and fluorocarbon etchants).
Showa Denko manufactures silicon at its Chichibu City facility in Saitama Prefecture. (Single-crystal ingots of gallium arsenide are also produced at this facility.) Showa Denko manufactures both Czochralski and magnetic Czochralski (MCZ) material. The company obtained its MCZ technology from Sony Corporation, a pioneer in this field. The MCZ growth method has received attention the last few years because of its ability to provide very high-purity material with tight oxygen control.
Showa Denko has 10 years of experience in compound semiconductor material manufacturing and an existing distribution network in electronic materials, factors that Showa Denko hopes will provide a competitive advantage.
Toshiba Ceramics
Toshiba Ceramics supplies both silicon and epitaxial wafers to the semiconductor industry. Dataquest estimates that Toshiba Ceramics had worldwide wafer sales of $78.9 million in 1987, of which 99 percent were to Japanese semiconductor manufacturers. Dataquest estimates that approximately 75 percent of Toshiba Ceramics' wafer sales were to its semiconductor parent, Toshiba Corporation. However, Dataquest still considers Toshiba Ceramics to be a merchant silicon company because it has active marketing and sales of wafers to the merchant market in addition to supplying its semiconductor parent.
Toshiba Ceramics has a silicon manufacturing facility (Oguni Plant) in the Nishiokitama District, Yamagata Prefecture. Activities at this facility include the growth of Czochralski single-crystal silicon ingots and wafer production. Toshiba Ceramics has a joint venture with the polysilicon manufacturer, Tokuyama Soda, known as Tokuyama Ceramics (Tokuyama, Yamaguchi Prefecture). This facility produces both silicon and epitaxial wafers. In addition, Toshiba Ceramics manufactures a diverse product mix for the semiconductor industry, including ceramic materials and quartz, graphite, and silicon carbide products. Table 11 shows Toshiba Ceramics' silicon plant locations and activities.
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Table 11
Toshiba Ceramics Silicon Plant Locations
Location
Oguni Plant Nishiokitama District, Yamagata Prefecture
Tokuyania Ceramics Tokuyama, Yamaguchi Prefecture
Polysilicon
Single-Crystal Ingots
X
Source:
Wafers
X
X
Dataquest July 1988
European Silicon Companies
Six Europe-based merchant silicon companies were active in supplying the semiconductor industry with wafers in 1987. During that year, these manufacturers accounted for $293.1 million in silicon and epitaxial wafer sales, or 16.0 percent of the world's $1,836.0 million market. Dataquest estimates that Wacker, rarjcing fourth in world share, represented the majority of Europe-based silicon company sales, with worldwide wafer sales of $214.8 million. Wacker is the only Europe-based silicon company that supplied a significant level of both silicon and epitaxial wafers. (DNS Electronic Materials began epitaxial wafer production at its Novara facility in the latterhalf Of 1987.)
DNS Electronic Materials
DNS Electronic Materials is a subsidiary of Veba AG, a major West German chemicals corporation. DNS was acquired by Veba in 1987 from Dynamit Nobel AG as part of the divestiture of that corporation's chemical and plastics operations. (Dynamit Nobel AG was established by the Swedish engineer Alfred Nobel, the inventor of dynamite and founder of the Nobel Foimdation.) The acquisition by Veba included the Italian and U.S. silicon facilities of Dynamit Nobel Silicon as well as a New Jersey-based photoresist company, Dynamit Nobel Microelectronics (formerly Petrarch Systems). The Huels division of Veba AG will have operating responsibility for both the silicon and photoresist operations. Acquisitions and name changes are not new to the Italian silicon manufacturer. Prior to DNS becoming a wholly owned subsidiary of Dynamit Nobel AG in October 1980, the company had been known as Smiel and was owned by Montedison. Corporate headquarters of DNS Electronic Materials are in Novara, Italy. Table 12 presents a summary of DNS' silicon plant locations and activities.
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Table 12
DNS Electronic Materials Silicon Plant Locations
Location
Merano Novara Research Triangle Park, North Carolina Sunnyvale, California
. -
Country Polysilicon
Italy X Italy
United States United States
Single-Crystal Ingots
X
Wafers
X
X
Source:
Technical C^nt^r
X
Dataquest July 1988
DNS reported that polysilicon capacity at Merano, Italy, was expanded from 450 to 700 metric tons per year at the end of 1985. Dataquest believes that current polysilicon capacity is still on the order of 700 metric tons per year. Both Czochralski and float zone ingots are grown at the Merano facility. European wafer operations are located in Novara. Silicon, and now epitaxial wafers, are produced at this facility.
DNS' North Carolina facility was originally a joint venture between Dynamit Nobel Silicon and W.R. Grace. The two companies formed Dynamit Nobel Grace Silicon in late 1984 to produce silicon wafers, polysilicon, and single-crystal ingots at a new facility in North Carolina. They invested $35 million initially in the Research Triangle Park plant, which was opened in May 1985; this facility began wafer production in January 1986. In March 1986, DNS bought out the one-third interest held by Grace for approximately $10 million. The company armounced, in May 1988, its plan to double the production capacity of the North Carolina plant. Expansion plans include a new building for epitaxial wafer manufacturing.
In addition to supplying silicon and epitaxial wafers to the semiconductor industry, DNS sells some single-crystal ingots and polysilicon products. Dataquest estimates that the company's 1987 worldwide wafer sales were approximately $63.0 million.
Okmetic
Okmetic is a new silicon wafer company in Espoo, Finland. The company was founded in 1985 by Outokumpu and Nokia. Outokumpu is a diversified company that specializes in metallurgy, mining, industrial equipment manufacturing, and electronics, while Nokia has several divisions that specialize in electronics, cables, machinery, metal products, engineering, chemicals, and plastics. Okmetic's silicon manufacturing
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Silicon and Epitaxial Wafer Markets
capability is based on a joint research and development program between Helsinki University of Technology and Okmetic's foimders. Okmetic started silicon wafer production in 1987 and currently offers polished CZ wafers from 3-inch through 150mm in diameter.
Rhone-Siltec
In 1984, Siltec Corporation entered into an agreement with Rhone-Poulenc of France, one of the world's largest chemical companies, to manufacture silicon wafers in France for distribution to semiconductor manufacturers in Western Europe. The joint venture, Rhone-Siltec, began pilot production in September 1985 at a facility near Mantes-la-Jolie (100 kilometers west of Paris). Rhone-Siltec, with a capacity of 20 MSI, focused on wafer-slicing, polishing, and lapping operations. In the fourth quarter of 1987, the company closed its facility after three years of operation because the company was unprofitable.
Siltronix SA —-
Siltronix SA is small silicon wafer company located in Geneva, Switzerland. The privately held company was established in 1970. Dataquest believes that Siltronix focuses its sales and marketing efforts on the European market.
Topsil Semiconductor Materials A/S
Topsil is a merchant silicon manufacturer in Frederikssund, Denmark. Topsil produces its own polysilicon, grows float zone single-crystal ingots, and manufactures wafers. The company pioneered the neutron transmutation doping (NTD) technique in 1974. This technique transforms silicon atoms into phosphorus by exposing a wafer to a flux of thermal neutrons. Although the technique can form only phosphorus-doped materials, its advantage is that it can provide an extremely imiform distribution of phosphorus, thus producing wafers with well-defined resistivity profiles.
Wacker
Wacker is the world's fourth largest supplier of silicon and epitaxial wafers to the semiconductor industry, with 1987 sales of $214.5 million, or 11.7 percent of the world market share. Wacker is the name used in this study to refer to the collective silicon operations of Wacker-Chemie GmbH of West Germany, which is owned equally by Hoechst AG and Dr. Alexander Wacker Familliengesellschaft mbH. Wacker-Chemie first started its research into high-purity silicon materials in 1953 and established Wacker-Chemitronic at Burghausen, West Germany, in 1968. Wacker Siltronic, established in 1978, is a U.S. subsidiary of Wacker-Chemie and an affiliate of Wacker-Chemitronic. Wacker's silicon plant locations and activities are shown in Table 13.
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Silicon and Epitaxial Wafer Markets
Table 13
Wacker Silicon Plant Locations
Location
Wacker-Chemitronic Burghausen, West Germany Wasserburg, West Germany Wacker Siltronic Portland, Oregon
Polysilicon
n
Single-Crystal I^got;?
X
X
-Wafers
X X
X
Source: Dataguest July 1988
Wacker's Burghausen facility has a polysilicon capacity of approximately 3,200 metric tons per year. In addition, extensive single-crystal growth operations, both Czochralski and float zone, and wafer production, silicon and epitaxial, occur at Burghausen. Wacker is a recognized leader in the field of float zone silicon material. In the summer of 1988, Wacker acquired Fairchild's facility in Wasserburg, West Germany. The plant in Wasserburg will be used primarily for polishing and epitaxial processing of 150mm and 200mm wafers. Wafer production at Wasserburg is expected to begin in 1989. (In addition to producing semiconductor substrate materials—silicon and gallium arsenide—^Wacker-Chemitronic established a subsidiary, Heliotronic GmbH, in 1977, to research and manufacture solar-grade silicon.)
In the United States, Wacker Siltronic produces silicon single-crystal ingots and wafers at its Portland, Oregon, facility. Dataquest believes that Wacker was the second-largest supplier of wafers in the United States in 1987.
Wacker Chemicals East Asia, established in Tokyo in 1982, serves as a marketing and sales arm for Wacker-Chemie in Japan and th^ Pacific Rim. Dataquest estimates that Wacker's Japanese silicon and epitaxial wafer sales were $6.4 million in 1987. This represents 0.6 percent of the Japanese silicon market. Dataquest believes that Wacker's presence in Rest of World (ROW) is substantially larger, with silicon and epitaxial wafer sales of $32.2 million, or 40.0 percent of the ROW silicon market.
SEMS Markets and Technology 0000819
© 1988 Dataquest Incorporated July 25
Silicon and Epitaxial Wafer Markets
ROW Silicon Companies
Dataquest has identified five ROW silicon companies—two in Korea and three in Taiwan—that represent a growing domestic supplier base in the newly industrialized countries of the Pacific Rim. This section of our study briefly examines the activities of these five merchant silicon companies. In addition, silicon wafer activities in Brazil and India are discussed.
Korea
Korsil. Korsil is a 50-50 joint venture between Monsanto of the United States and Dongbu Industrial Company of Korea. The silicon wafer company is located in Gumi, adjacent to the country's developing semiconductor industry. The Korsil facility, which began production of silicon wafers in late 1986, currently has a capacity of 20 MSI; however, it has been designed for capacity expansion of up to 5 million 100mm wafers, or 60 MSI. Dataquest estimates that Korsil had sales of $5.0 million in 1987. (Please note that Korsil's silicon wafer sales are listed separately from Monsanto's sales.)
Lucky Advanced Materials, Inc. In October 1985, Siltec announced the licensing of its silicon technology to Lucky Advanced Materials, Inc. (LAMI), of Korea, an affiliate of the Lucky-GoldStar group. Lucky Advanced Materials agreed to pay Siltec $4 million plus royalties for the technology. The LAMI silicon facility is located in Gumi and began production in February 1987. Wafer capacity at this facility is on the order of 20 MSI. The LAMI plant is the only silicon facility in Korea that has single-crystal silicon growth and wafer production operations. Dataquest estimates that Lucky Advanced Materials had sales of $0.7 million in 1987.
26 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Taiwan
There are three silicon wafer companies in Taiwan—Hermes Epitaxy, Sino-America, and Tatung Company. Hermes Epitaxy produces epitaxial wafers, while Sino-America produces single-crystal ingots and CZ wafers. Both companies have wafer facilities in Hsinchu. Tatimg Company is a large, diversified electronics firm; its silicon manufacturing facility is located in Taipei. Tatung produces single-crystal silicon ingots as well as silicon wafers. Tatimg and Osaka Titanium Company of Japan have reached an agreement for OTC to supply equipment and technology to the Taiwanese company.
Others
Brazil. Heliodinamica, of Sao Paolo, Brazil, recently began production of silicon wafers for semiconductor device fabrication. The solar energy company originally manufactured silicon wafers for photovoltaic applications but now has expanded its capability to service the Brazilian microelectronics industry. The crystal growth and wafer technology employed by Heliodinamica was developed in Brazil.
India. Metkem Silicon, Ltd., in Mettur, India, manufactures polysilicon and has plans to produce silicon wafers for semiconductor device fabrication. Another plan for polysilicon production in India was dropped by the government in late 1987. The national silicon factory project, which was planned to have a capacity of 200 metric tons per year, was being developed in conjunction with Hemlock Semiconductor, a major U.S. polysilicon manufacturer.
MARKET ANALYSIS—COMPANY MARKET SHARE BY REGION
This section presents Dataquest's estimates of worldwide and regional silicon and epitaxial wafer shipments by the merchant silicon companies in 1987. Our estimates of company sales include wafers sold directly to semiconductor manufacturers and those sold to epitaxial silicon wafer houses that do not grow all of their own material. The potential problem of double-coimting million square inches that arises from sales to epi houses is corrected in our final analysis of total million square inch consumption by the semiconductor industry. The company market share that we publish, however, reflects sales to both sets of customers: semiconductor manufacturers and epitaxial silicon wafer companies.
Tables 14 through 18 present 1987 merchant silicon and epitaxial wafer sales. Tables 14 through 17 are devoted to silicon and epitaxial wafer sales in a given region of the world. Table 18 presents merchant silicon company market share for wafer sales worldwide. The total market for silicon and epitaxial wafers in 1987 was $1,836.0 million. Of this total, $254.8 million, or 13.9 percent, was produced by ifnited States-based merchant silicon manufacturers; $1,280.2 million, or 69.7 percent, by Japan-based merchant silicon manufacturers; $293.1 million, or 16.0 percent, by Europe-based merchant silicon manufacturers; and $7.9 million, or 0.4 percent, by silicon companies headquartered in ROW.
SEMS Markets and Technology © 1988 Dataquest Incorpxjrated July 27 0000819
Silicon and Epitaxial Wafer Markets
United States
Figure 1 illustrates the shift in market share of the regionally based silicon companies in the United States in 1985, 1986, and 1987. United States-based companies supplied approximately 44.9 percent, or $176.2 million, of the silicon and epitaxial wafers sold in the United States in 1987. As shown in Figure 1, United States-based silicon companies lost share in their home market during 1986 and 1987, primarily to Japan-based silicon companies. The majority of share "increase for the Japan-based corporations was due to the acquisition of U.S. silicon companies: NBK Corporation in 1985, and Siltec Corporation and U.S. Semiconductor, both in 1986. In addition, established Japanese operations in the United States, such as SEH America, as well as Europe-based companies, like Wacker Siltronic and DNS Electronic Materials, also experienced modest growth in U.S. sales during this time period. This situation, in turn, reduced United States-based silicon company market share.
Figure 1
Regionally Based Silicon Company Market Share in the United States, 1985-1987
(Millions of Dollars)
Percent 100-
S3S5,5 S361.0 J392.4
90-
80
70
60
50
40
30
20
10
0 1985 1986 1987
Europe-Based Companies Japan-Based Companies United States-Based Companies
Source: Dataquest July 1988
28 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 14
U.S. Silicon and Epitaxial Wafer Market. 1987 (Milli<Mis of Dollars)
s i l i c o n Wafers Ep i tax ia l Wafers Total Company
United States-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. Monsanto Recticon Other U.S. Companies Total
Japan-Based Companies Kawasaki Steel, NBK Corp. Komatsu Electronic Metals Mitsubishi Metal
Japan Silicon Siltec Silicon
Osaka Titanium Company OTC (Japan) U.S. Semiconductor
Shin-Etsu Handotai Toshiba Ceramics Other Japanese Companies Total
Europe-Based Companies DNS Electronic Materials Topsil Wacker Other European Companies Total
Sales
-$ 9.0
-88.4 7.0 6.7
$111.1
$ 5.5 7.5 27.8 1.6 26.2 15.6 15.6
-48.9 0.6 —
$105.9
$ 23.3 2.3 53.5
_ $ 79.1
Share
-3.0% -
29.9 2.4 2,3 37.5%
1.9% 2.5 9.4
5.3
16.5 0.2 —
35.8%
7.9% 0.8 18.1
_ 26.7%
Sales
$31.6 -
2.5 26.6
-4.4
$65.1
-$ l.O 0.8 0.8 -6.2 1.3 4.9 12.2
-—
$20.2
--
$11.0 _
$11.0
Share
32.8% -
2.6 27.6
-4,e 67.6%
-1.0% 0.8
6.5
12.7 --
21.0%
--
11.4% _
11.4%
Sales
$ 31.6 9.0 2.5
115.0 7.0 11.1
$176.2
$ 5.5 8.5 28.6 2.4 26.2 21.9 17.0 4.9 61.1 0.6 —
$126.2
$ 23.3 2.3 64.5
« $ 90.1
Share
8.1% 2.3 0.6 29.3 1.8 2,8
44.9%
1.4% 2.2 7.3
5.6
15.6 0.2 —
32.1%
5.9% 0.6 16.4
_ 23.0%
ROW-Based Companies Total Total Sales— United States $296.1 100.0% $96.3 100.0% $392.5 100.0% '-
Note: Coliunns may not add to totals shown because of rounding.
Source: DatagueSt July 1988
SEMS Markets and Technology 0000819
© 1988 Dataquest Incorporated July 29
Silicon and Epitaxial Wafer Markets
Japan
Figure 2 illustrates the shift in market share of the regionally based silicon companies in Japan in 1985, 1986, and 1987. Japan-based companies supplied approximately 97.0 percent, or $1,108.4 million, of the silicon and epitaxial wafers sold in Japan in 1987. As shown in Figure 2, Japan-based company market share has remained essentially constant over the last three years, ranging from 97.9 percent in 1985 to 97.0 percent in 1987. In spite of yen appreciation, which has made Japanese-made wafers more costly than materials imported from abroad, U.S. and European companies have yet to establish a position as significant suppliers within the Japanese market.
Figure 2
Regionally Based Silicon Company Market Share in Japan, 1985-1987 (Millions of Dollars)
Percent 100-r
M-
$631.9 $939.6 $1,142.1
6ftH
3 0 -
o-i 1985 1986 1987
E^2 Europe-Based Compeinies h:\:'\ United States-Based Companies
Japan-Based Companies Source: Dataquest
July 19S8
30 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 15
Japanese Silicon aiKl Epitaxial Wafer Nfarket, 1987 (Millions of Dollars)
Silicon Wafers Epitaxial Wafers Total Company S&lSS. Share Sales ShSE& S^les ShS£&
United States-Based Companies Cincinnati Milacron - - - - - -Crysteco $ 0 . 3 0 - - $ 0.3 0 Epitaxy, Inc. - - - - - -Monsanto 21.7 2.5% $ 1.7 0.6% 23.4 2.0 Recticon - - - - - -Other U.S. Companies - - 0.1 ft 0.1 ft Total $ 22.0 2.6% $ 1.8 0.6% $ 23.8 2.1%
Japan-Based Companies Kawasaki Steel, NBK Corp. $ 0.4 0 - - $ 0.4 0 Komatsu Electronic Metals 145.7 17.0% $ 41.1 14.5% 186.8 16.4% Mitsubishi Metal 157.1 18.3 74.2 26.2 231.2 20.2
Japan Silicon 157.1 74.2 231.2 Siltec Silicon - -
Osaka Titanium Company 172.2 20.O 25.2 8.9 197.4 17.3 OTC (Japan) 172.2 25.2 197.4 U.S. Semiconductor - -
Shin-Etsu Handotai 281.9 32.8 120.8 42.7 402.7 35.3 Toshiba Ceramics 58.6 6.8 19.7 7.0 78.3 6.9 Other Japanese Companies 11.2 1.3 0^3 O.l 11.5 l.O Total $827.1 96.3% $281.3 99.4% $1,108.3 97.0%
Europe-Based Companies DNS Electronic Materials - - - - - -Topsil $ 3 . 5 0.4% - - $ 3.5 0.3% Wacker 6.4 0.7 - - 6.4 0.6 Other European Companies :: - - - - :; Total $ 9.9 1.2% - - $ 9.9 0.9%
ROW-Based Companies Total - - -. _ _ -
Total Sales—Japan $859.0 100.0% $283.1 100.0% $1,142.0 100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
SEMS Markets and Technology © 1988 Dataquest Incorporated July 31 0000819
Silicon and Epitaxial Wafer Markets
Europe
Figure 3 illustrates the shift in market share of the regionally based silicon companies in Europe in 1985, 1986, and 1987. Europe-based companies supplied approximately 70.0 percent, or $154.7 million, of the silicon and epitaxial wafers sold in Europe in 1987. As shown in Figure 2, Europe-based company market share has been decreasing slowly over the last several years, from a 77.1 percent share in 1985 to a 70.0 percent share in 1987. This decline in share correlates with a corresponding increase in share for the Japan-based silicon companies, which are focusing more and more on export markets, such as Europe, as a strategy for long-term growth. Although United States-based silicon suppliers experienced a minor decline in European share in 1986, they regained their 1985 position of a 14.4 percent share of the European market in 1987.
Figure 3
Regionally Based Silicon Company Market Share in Eur(q>e, 1985-1987 (Millions of Dollars)
Percent 100
$136.9 $ies.9 $221.0
1985 lass 1987
Japan-Based Companies \':'\:'i United States-Based Companies S E ] Europe-Based Companies
Source: Dataquest July 1988
32 © 1988 Dataquest Incorporated July SEMS Markets and Teclinology 0000819
Silicon and Epitaxial Wafer Markets
Table 16
European Silicon aiKl Epitaxial Vfafer Market, 1987 (Millions of Dollars)
Company
United States-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. Monsanto Recticon Other U.S. Companies Total
Japan-Based Companies Kawasaki Steel, NBK Corp. Komatsu Electronic Metals
Silicon Sales
$ 0.2 -
20.9
0.2 $ 21.3
Wafers 5h&re
0.1% -
11.7
0.1 11.9%
Epitaxial
$ 1.4 -
O.l 8.5
0.6 $10.6
. Wafers ^hare
3.3% -
0.2 20.3
1.4 25.3%
i
$
$
Total 5&19S
1.4 0.2 o.l 29.4
0.9 31.9
Share
0.6% o.l o.o 13.3
0.4 14.4%
Mitsubishi Metal Japan Silicon Siltec Silicon
Osaka Titanium Company OTC (Japan) U.S. Semiconductor
Shin-Etsu Handotai Toshiba Ceramics Other Japanese Companies Total
Europe-Based Companies DNS E l e c t r o n i c Materials Topsil Wacker Other European Companies Total
ROW-Based Companies Total
$
$
$
1.6 1.6 -
13.8 13.8
-15.6
-_
31.0
34.0 6.0 83.8 3.0
$126.8
-
0.9%
7.7
8.7 -_
17.3%
19.0% 3.3 46.8 1.7
70.8%
-
$ 0.8 0.8 -
0.9 0.7
o.l 1.7 -_
$ 3.4
--
$27.9
$27.9
—
1.9%
2.1
4.1 -
8.0%
--
66.7% _
66.7%
-
$
$
$
:
2.4 2.4 -
14.7 14.6
o.l 17.3
-.
34.4
34.0 6.0 *
111. 7 3.0
$154.7
_
1.1%
6.6
7.8 -_
15.6%
15.4% 2.7 50.5 1.4
70.0%
-
Total Sales—Europe $179.1 100.0% $41.9 100.0% $221.0 100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
SEMS Markets and Technology © 1988 Dataquest Incorporated July 33 0000819
Silicon and Epitaxial Wafer Markets
ROW
Figure 4 illustrates the shift in market share of the regionally based silicon companies in ROW in 1985, 1986, and 1987. Europe- and United States-based silicon suppliers continued to dominate the ROW silicon market with a combined share of 76.1 percent, or $61.3 million, of the silicon and epitaxial wafers sold in ROW in 1987. An important element in the ROW silicon market has been the emergence of a domestic supplier base in the newly industrialized countries of the Pacific Rim over the last several years.
In particular, Korean silicon companies Korsil and Lucky Advanced Materials have accounted for the majority of increase in ROW-based company market share, which has risen from 1.1 percent in 1985 to 9.8 percent in 1987. Japan-based silicon companies have also experienced some modest growth in share, from 11.3 percent in 1985 to 14.0 percent in 1987. While United States-based company share experienced a slight increase in 1986, it returned to close to its 1985 level in 1987, with a 28.4 percent share. Europe-based silicon companies still remain the largest regionally based group of silicon suppliers in ROW but have lost Share steadily over the last several years, as new suppliers entered this highly competitive regional market.
Figure 4
Regionally Based Silicon Company Market Share in ROW. 1985-1987
(Millions of Dollars)
Percent 100
$43.5 $61.0 $80.5
1985
l'"-""l United States-Based Companies l-*'-- -l Europe-Based Companies
1986 l-si-ssi ROW-Based Companies
Japan-Based Companies
1987
Source: Data quel t July 198S
34 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 17
ROW Silicon and Epitaxial Wafer Market. 1987 (Millions of Dollars)
Company
United States-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. Monsanto Secticon Other U.S. Companies Total
Japan-Based Companies Kawasaki Steel, NBK Corp. Komatsu Electronic Metals Mitsubishi Metal
Japan Silicon Siltec Silicon
Osaka Titanium Company OTC (Japan) U.S. Semiconductor
Shin-Etsu Handotai Toshiba Ceramics Other Japanese Companies Total
Europe-Based Companies DNS Electronic Materials Topsil Wacker Other European Companies Total
ROW-Based Companies Lucky Advanced Materials, Inc. Korsil Other ROW Companies Total
Total Sales—ROW
S i l i c o n S9 lS5
-
_ $ 1 6 . 9
Ot l $ 1 7 . 0
$ 1 . 1 1 . 9 2 . 7 1 . 6 1 . 1 1 . 4 1 . 4
-3 . 5
_
$ 1 0 . 6
$ 5 . 7 0 . 5
3 2 . 0 -
$ 3 8 . 2
$ 0 . 7 5 . 0 l . O
$ 6 . 7
$ 7 2 . 5
Wafe rs Sh9ir^
-
_ 23.3%
Ot l 23 .4%
1.5% 2 . 6 3 . 7
1 . 9
4 . 8
.
14 .6%
7.9% 0 . 7
4 4 . 1 —
52.7%
1.0% 6 . 9 1 . 4 9 .2%
100.0%
E p i t a x i a l Waferi S a l e s Sha re
$ 1 . 0
4 . 4 0 . 3
0 . 2 $ 5 . 9
^
$ 0 . 1 0 . 3 0 . 3
-0 . 2 O . l O . l O . l
mm
$ 0 . 7
_ -
$ 0 . 2 —
$ 0 . 2
-$ 1 , 2 $ 1 . 2
$ 8 . 0
12 .5%
5 5 . 0 3 . 8
2 . 5 73 .8%
^
1.3% 3 . 8
2 . 5
1.3
^
8.8%
^ -
2.5% —
2.5%
-15,0% 15 .0%
ioo.o%
s T o t a l Sne5
$ i.o
4 . 4 1 7 . 2
0 . 3 $ 2 2 . 9
$ 1 . 1 2 . 0 3 . 0 1 . 9 1 . 1 1 . 6 1 . 5 o . l 3 . 6
^
$ 1 1 . 3
$ 5 . 7 0 . 5
3 2 . 2 —
$ 3 8 . 4
$ 0 . 7 5 . 0 2 t ?
$ 7 . 9
$ 8 0 . 5
Sha re
1.2%
5 . 5 2 1 . 4
0 , 4 28 .4%
1.4% 2 . 5 3 . 7
2 . 0
4 . 5
_
14.0%
7.1% 0 . 6
4 0 . 0 —
47 .7%
0.9% 6 . 2 2 . 7 9 .8%
ioo.o%
Note: Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
SEMS Markets and Technology 0000819
© 1988 Dataquest Incorporated July 35
Silicon and Epitaxial Wafer Markets
Worldwide Silicon and Epitaxial Sales
Figure 5 illustrates the shift in world market share of the regionally based silicon companies in 1985, 1986, and 1987. Japan-based silicon companies dominated the market in 1987 and have steadily increased their share of the world silicon and epitaxial wafer market, from 60.2 percent in 1985 to 69.7 percent in 1987. This increase is due primarily to rapid yen appreciation during that time period, while the remainder of the increase is accounted for by the recent acquisitions of United States-based silicon companies by Japanese corporations. In Figure 5, it appears that United States-based silicon companies and, to a lesser extent, European suppliers have lost share of the world market between 1985 and 1987. Again, when currency appreciation and company acquisitions are taken into accoimt, 1987 regionally based company share remains at essentially the same level as in 1985. Although the shift is not visible in Figure 5, ROW-based suppliers have increased in world market share, from less than 0.1 percent in 1985 to approximately 0.4 percent in 1987.
Figures
Regionally Based Silicon Company Market Share in the World, 1985-1987
(Millions of Dollars)
Percent 1C0-f
$1,167.8 $1,551.5 $1,836.0
EZS3
1985
Europe-Based Companies
United States-Based Companies
Japan-Based Companies
1S86 1937
Source: Dataquest July 1988
36 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 18
Worldwide Silicon and Epitaxial Wafer Market, 1987 (Millions of Dollars)
Company
United States-Based Companies Cincinnati Milacron Crysteco Epitaxy, Inc. Monsanto Recticon Other U.S. Companies Total
Japan-Based Companies Kawasaki Steel, NBK Corp. Komatsu Electronic Metals Mitsubishi Metal
Japan Silicon Siltec Silicon
Osaka Titanium Company OTC (Japan) U.S. Semiconductor
Shin-Etsu Handotai Toshiba Ceramics Other Japanese Companies Total
Europe-Based Companies DNS Electronic Materials Topsil Wacker Other European Companies Total
SOW-Based Companies Lucky Advanced Materials, Inc. Korsil Other ROW Companies Total
Tota l Sales—World
Silicon Wafers Sales
,
$ 9.5 -
147.9 7.0 7,0
$ 171.4
$ 7.0 155.1 189.2 161.9 27.3 203.1 203.1
-
349.9 59.2 11.2
$ 974.6
$ 63.0 12.3 175.7 3.0
Share
.
0.7% -
10.5 0.5 0.5 12.2%
0.5% 11.0 13.4
14.4
24.9 4.2 0.8 69.3%
4.5% 0.9 12.5 0.2
Epitaxial Wafers
$
$
$
:
S? l©5
34.0 -
7.0 37.1
-
5.3 83.4
^
42.2 76.1 76.1
-
32.5 27.4 5.1
134.8 19.7 0.3
$305.6
$
• »
-
39.1 —
Shaire
tt
7.9% -
1.6 8.6
-
1,2 19.4%
_
9.8% 17.7
7.6
31.4 4.6 0.1
71.2%
^
-
9.1% -
$
$
$
$]
$
Total S?ilps
34.0 9.5 7.0
185.0 7.0 12.3 254.8
7.0 197.3 265.3 238.0 27.3 235.5 230.5 5.1
484.7 78.9 11.5
.,280.1
63.0 12.3 214.8 3.0
Share
1.9% 0.5 0.4 10.1 0.4 0.7 13.9%
0.4% 10.7 14.4
12.8
26.4 4.3 0.6 69.7%
3.4% 0.7 11.7 0.2
$ 254.0 18.1% $ 3 9 . 1 9.1% $ 293.1 16.0%
$ 0.7 5.0 1.0
$ 6.7
$1,406.7
0 0.4% 0,1 0.5%
100.0%
--
$ 1,2 $ 1.2
$429.3
--
0,3% 0.3%
100.0%
$
$
$1.
0.7 5.0 2.2 7.9
,836.0
0 0.3 0,1 0.4%
100.0%
Note: Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
SEMS Markets and Technology 0000819
© 1988 Dataquest Incorporated July 37
Silicon and Epitaxial Wafer Markets
MARKET ANALYSIS—WAFER PRICING
Dataquest surveyed the merchant silicon companies to establish 1987 average selling prices (ASPs) for silicon and epitaxial wafers. Table 19 presents these estimates (measured in dollars) for the United States, Japan, Europe, and ROW, on a per wafer basis and per square inch basis for 3 inches through 200mm wafers. (Japanese wafer prices are reported in yen, as well as dollars.) The silicon wafer prices reflect the ASP for polished CZ wafers. Epitaxial wafer prices can vary considerably, depending upon the level of custom specifications and the thickness of the epitaxial layer required. It is important to understand that the regional ASPs presented in Table 19 reflect a broad distribution in product specifications for each wafer size. The reader is cautioned to use this information only as a general tool in understanding regional pricing differences and trends, rather than as a specific pricing guide.
38 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
Silicon and Epitaxial Wafer Markets
Table 19
1987 Regional Average Selling Prices Of Silicon and Epitaxial Wafers by Wafer Size
Wafer Diameter Wafer Area (Square Inches)
Per Wafer (t/vafer) CZ Polished Wafers
United States Europe ROW Japan Japan* (Yen/wafer)
Epitaxial Wafers United States Europe ROW Japan Japan (Yen/wafer)
Per Square Inch ($/SI> CZ Polished Wafers
United States Europe ROW Japan Japan (Yen/SI)
Epitaxial Wafers United States Europe ROW Japan Japan (Yen/SI)
*V144 = $1
3 - i n c h 7 . 0 7
$ 6 . 0 0 -
$ 5 . 5 0 $ 1 2 . 5 0 ¥ 1 , 8 0 0
$ 2 1 . 2 0 --
$ 3 4 . 7 3 ¥ 5 , 0 0 0
$ 0 . 8 5 -
$ 0 . 7 8 $ 1 .77 V 255
$ 3 . 0 0 --
$ 4 . 9 1 It 707
lOOmm 12 i . l 7
$ 1 0 . 1 0 $ 1 3 . 5 0 $ 8 . 9 0 $ 1 3 . 4 7 VI . , 9 4 0
$ 2 9 . 5 0 $ 2 9 . 7 0
-$ 4 0 . 5 0 V£
$ $ $ $ V
$ $
$ ¥
>,830
0 . 8 3 1 . 1 1 0 . 7 3 1 . 1 1
159
2 . 4 2 2 . 4 4
-3 . 3 3
479
125mm 1 9 . 0 2
$ 1 8 . 6 0 -
$ 1 6 . 8 0 $ 2 6 . 9 0 ¥ 3 , 8 7 0
$ 5 1 . 0 0 --
$ 6 9 . 4 7 ¥ 1 0 , 0 0 0
$ 0 . 9 8 -
$ 0 . 8 8 $ 1 . 4 1 ¥ 203
$ 2 . 6 8 --
$ 3 . 6 5 ¥ 526
150inm 2 7 . 3 9
$ 3 3 . 0 0 $ 4 6 . 9 0 $ 3 2 . 0 0 $ 4 9 . 1 0 ¥ 7 , 0 7 0
$ 8 3 . 3 0 $ 1 1 8 . 0 0 $ 9 5 . 0 0 $ 1 2 5 . 0 0 ¥ 1 8 , 0 0 0
$ 1 .20 $ 1 . 7 1 $ 1 .17 $ 1 .79 ¥ 258
$ 3 . 0 4 $ 4 . 3 1 $ 3 . 4 7 $ 4 . 5 6 ¥ 657
200inm 4 8 . 7 0
$ 1 8 8 . 0 0 --
$ 2 6 4 . 0 0 V38 ,000
---
\
$ 3 . 8 6 --
$ 5 . 4 2 V 780
---—
Note: The regional average selling price information presented in this table reflects a broad distribution in product specifications for each wafer size. The reader is cautioned to use this information only as a general tool in understanding regional pricing differences and trends, rather than as a specific pricing guide.
Source: Dataquest July 1988
SEMS Markets and Technology 0000819
© 1988 Dataquest Incorporated July 39
Silicon and Epitaxial Wafer Markets
The regional ASP per square inch of silicon and epitaxial wafers is dependent upon the wafer size mix in the different regions of the world. Table 20 presents a three-year perspective of the regional ASP per square inch for both silicon and epitaxial wafers, weighted by the wafer size distribution. In general, the regional ASPs per square inch have decreased every year. While it appears in Table 20 that both Japan and Europe have experienced an increase in ASP per square inch, this is due to currency appreciation within these regions in 1986 and 1987. Dataquest believes that when measured in local currency, silicon and epitaxial wafer ASPs per square inch in Japan and Europe, as in the United States, decreased a modest amount in both 1986 and 1987.
It also should be noted that the weighted silicon wafer ASP in Table 20 reflects several different types of wafers sold by merchant silicon companies including test, polished CZ, and float zone wafers.
Table 20
Silicon and Epitaxial Wafers Weighted Average Selling Price by Region, 1985-1987
(Dollars per Square Inch)
United States Japan Europe ROW
Si 198?
$0.96 $0.98 $0.89 $0.93
l i c o n Wafers 1996
$0.90 $1.32 $1.03 $0.89
1997
$0.85 $1.47 $1.14 $0.91
Epitaxial Ws 1985 1986
$2.93 $2.60 $2.89
1
$2.86 $3.53 $2.93
$2.90-$3
Source:
ifers 1987
$2.71 $3.94 $3.05
1.00 >
Dataquest July 1988
In particular, it is difficult to establish an average selling price for float zone material since there is a wide range in prices. For some applications, such as IC fabrication, the price of float zone material may be less than or equal to the price of a polished Czochralski wafer, on the order of $1.00 per square inch. In other applications, such as the fabrication of power devices and other discretes, thicker wafers of float zone material, as thick as 1,000 microns (two to three times thicker than a polished wafer), may be required. The cost of such wafers will be substantially higher, with the price equal to or greater than that of epitaxial silicon.
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Silicon and Epitaxial Wafer Markets
Wafer Pricing Pressures
One of the factors that characterizes the silicon wafer market of the last several years is the decrease in wafer prices. Table 21 illustrates this issue by presenting average wafer prices for 100mm and 150mm polished Czochralski wafers in the United States and Japan between 1984 and 1987. According to Dataquest estimates, the prices of 100mm and 150mm wafers in the United States have declined at respective compound annual rates of 5.0 percent and 7.7 percent during this time period, while in Japan, the decline has been 6.8 percent and 10.9 percent, respectively.
Table 21
Historical Wafer Prices, United States and Japan Polished Czochralski Wafers
United States lOOmm ($/Wa£er) ISOrnm ($/Wa£er)
Japan lOOmm (Yen/Wafer) ISOnun (Yen/Wafer)
1984
$ 11.80 $ 42.00
V 2,400 vio^ooo
198$
$11.35 $37.80
¥2,225 ¥8,600
1986
$10.85 $34.00
V2,030 ¥7,220
1987
$10.10 $33.00
¥1,940 ¥7,070
Source:
CAGR 1984-1987
(5.0%) (7.7%)
(6.8%) (10.9%)
Dataquest July 1988
Historically, as large wafer products mature, prices decrease because silicon wafer companies move down the learning curve of wafer manufacturing. Pricing has been an important competitive issue as well. However, with the recession of the last few years, there have been additional pressures from cost-conscious semiconductor manufacturers for lower and lower prices. At the same time, increasing device complexity has led to demands for tighter wafer specifications; in turn, this means that silicon companies have had to perform more analytical tests to assure wafer quality. More analytical testing and product qualification mean higher costs to the silicon companies, and with the continued price decreases, silicon companies are forced to accept smaller margins on their products. Dataquest believes that wafer pricing pressure has been one of the major factors that has affected profitability in the silicon industry over the last several years.
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Silicon and Epitaxial Wafer Markets
Recently, there has been much discussion of silicon companies' trjnng to raise their prices. Dataquest expects this effort to experience some modest success in 1988; however, it is unclear whether stable silicon wafer prices will be maintained through the next downturn in the semiconductor business cycle.
Effects of Yen Appreciation
Another factor that has affected the silicon market over the last several years has been currency appreciation, in particular, for Japanese silicon companies seeking to expand their business activities. In addition to the domestic competitive factors, Japanese silicon companies had to face the pressures of restricted markets overseas because of the yen's appreciation in 1986 and 1987. Silicon wafer pricing has always varied from region to region. However, Japanese silicon companies without local manufacturing facilities foimd it difficult to compete in the U.S. market in 1986 and 1987, due to the large differences in wafer prices affected by exchange rate factors. For example, in 1985, the average U.S. price for a 100mm wafer was $11.35 (see Table 21). At an exchange rate of ¥238 per $1, a Japanese silicon company would receive ¥2,700 for a 100mm wafer. In 1987, the U.S. average selling price of a 100mm wafer came down to $10.10. However, at the 1987 exchange rate of ¥144 per $1, a Japanese silicon company would now only receive ¥1,450 for a 100mm wafer sold in the United States.
(To a lesser extent, this price differential due to the currency exchange rate existed for Japanese companies selling wafers in Europe as well. However, Europe has experienced currency appreciation at a level similar to the rise in the yen, and thus wafer price differentials are not as large as those in the United States.)
Because of the high value of the yen, Japanese silicon companies exporting silicon wafers to the United States have the following two options:
• To meet and maintain U.S. average selling prices for wafers and lose on margins in order to maintain U.S. market share and customer relationships
• To raise wafer prices in the United States to regain a given yen rate of return and, as a consequence, lose market share
A third option—acquisition of U.S. silicon companies—has also been pursued over the last several years.
Overseas Acquisitions. While the high yen has made silicon exports from Japan more difficult, it has also made the acquisition of U.S. firms more attractive. As mentioned earlier, in 1986, two Japanese silicon companies chose the latter method of competing in the U.S. market. Mitsubishi Metal acquired Siltec in the third quarter of 1986, and OTC armoimced its plans in December to acquire U.S. Semiconductor, an epitaxial wafer manufacturer.
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Other Japanese companies that have established or acquired silicon facilities in the United States include silicon manufacturer Shin-Etsu Handotai (which established SEH America, a wholly owned subsidiary in Vancouver, Washington) and steelmakers Kawasaki Steel and Nippon Kokan K.K. Kawasaki Steel acquired Santa Clara-based NBK Corporation in the third quarter of 1985, and Nippon Kokan K.K. bought Great Western's polysilicon facility in December 1985. In December 1986, Nippon Kokan K.K. annoimced its purchase of land in Millersburg, Oregon, for a new 1,000-metric-ton polysilicon plant. Groimd-breaking ceremonies took place in June 1987; however, construction plans were put on hold in January 1988. Dataquest believes that NKK is reevaluating its plan to build a poly plant in light of sluggish demand and polysilicon over-capacity in the industry.
Of the top four Japanese silicon companies—Shin-Etsu Handotai, Mitsubishi Metal, Osaka Titanium, and Komatsu Electronic Metals—Komatsu is the only company that does not have wafer manufacturing facilities in the United States today. Dataquest believes that Komatsu must pursue a strategy to buy or build a silicon wafer plant in the United States, if the company plans to become competitive in this regional market in the long term.
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Silicon and Epitaxial Wafer Markets
MARKET ANALYSIS BY MILLION SQUARE INCHES
Both merchant and captive silicon producers manufacture silicon wafer substrate materials. The following section presents 1985, 1986, and 1987 MSI estimates for the merchant silicon and epitaxial wafer market. Internal production of silicon by semiconductor manufacturers (captive silicon producers) is estimated.
Merchant Silicon Companies
The merchant silicon and epitaxial wafer market, as measured in MSI, is determined for each of the four regions of the world by dividing merchant silicon company sales in a given region (Tables 14 through 18) by the regional average selling price per square inch (Table 20). Table 22 contains the million square inch market of silicon and epitaxial wafers based on this analysis.
In the United States, several small epitaxial houses do not grow all of their own silicon substrate material, but rather purchase their wafers from other merchant silicon companies. For this reason, it is necessary to correct the square inches of silicon derived from sales of silicon wafers in the United States for the amount of silicon substrate sold to epitaxial silicon companies. Dataquest estimates that this corresponds to approximately 11 to 13 MSI in the years 1985 through 1987. The U.S. silicon million square inch estimates presented in Table 22 include this corrective factor.
Table 22 indicates that epitaxial wafers represent 36 out of 372 MSI sold in the United States in 1987, or approximately 9.7 percent. Japan's percentage is slightly higher, at about 10.9 percent. Europe's figure is approximately 8.2 percent. In Europe, the percentage is slightly lower than for the United States and Japan, we believe, because epitaxial wafer demand for discretes is accounted for by semiconductor manufacturers that do their own epi, such as Philips, Siemens, and Thomson. Remember that the epitaxial million square inches presented in Table 22 do not include epitaxial deposition performed by semiconductor manufacturers, but only merchant silicon company sales of epitaxial wafers to the industry.
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Table 22
Merchant Siliom and Epitaxial Wafer Market by Region. 1985-1987
(Million Square Inches)
IMS. 198g 1987
Merchant Silicon Wafers United States Japan Europe ROW Total
Merchant Epitaxial Wafers United States Japan Europe ROW Total
Total Merchant Wafers United States Japaua Europe ROW Total
282 515 134 41 972
25 49 6 2 83
307 564 140 43
1,055
297 552 155 62
1,066
29 60 10 2
102
326 612 165 64
1,168
Source:
336 586 157 90
1,159
36 72 14 3
124
372 658 171 83
1,284
DatagueSt July 1988
Captive Silicon Production
In 1987, six semiconductor manufacturers grew single-crystal silicon to produce wafers for internal consumption. In the United States, these companies were AT&T, IBM, Motorola, and Texas Instruments. (As previously noted, Fairchild closed its silicon operations in June 1985; Delco stopped internal silicon production in the spring of 1986.) Hitachi in Japan, through its subsidiary, Hitachi Ohme Denshi (Yanai City, Yamaguchi), and Philips in Europe also perform captive silicon production. Table 23 contains Dataquest's estimates of the silicon produced by these semiconductor manufacturers in 1985, 1986, and 1987. No distinction is made between silicon and epitaxial wafers in the MSI estimates for the captive silicon producers.
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As shown in Table 23, Dataquest believes that Texas Instruments ships some of the wafers produced at its Sherman, Texas, facility to its semiconductor manufacturing plants in Japan and Europe. One benefit of this practice is the ability to avoid the relatively higher wafer cost in those regions because of currency appreciation over the last several years. In addition, a captive silicon producer can manufacture wafers with custom and proprietary specifications and may want to use such wafers in device fabrication at offshore facilities. Dataquest expects the practice of shipping silicon to offshore facilities to extend to other captive silicon producers, such as AT&T and IBM, when AT&T's Spain facility and IBM's new 200mm fab in West Germany come on-line.
Table 23
Captive Silicon Production, 1985-1987 (Million Square Inches)
Total Captive Silicon Production AT&T Delco Fairchild Hitachi IBM Motorola Philips Texas Instruments Total—Worldwide
Regional Consumption of Captive Silicon Production United States AT&T Delco Fairchild IBM Motorola Texas Instruments Total—United States
Japan Hitachi Texas Instruments Total—Japan
Europe Philips Texas Instruments Total—Europe
1985
15 3 3 18 18 15 6
_4S 123
1986 1987
15 1 0 18 18 15 5 46 118
15 0 0 18 18 15 2
^S 113
46 © 1988 Dataquest Incorporated July
15 3 3 18 15 21 91
18 _& 24
6 2 8
15 1 0 18 15 12 81
18 U 29
5
a 8
Source:
15 0 0 18 15 25. 73
18 16 34
2 4 6
Dataquest July 1988
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Total Million Square Inch Market
Table 24 combines 1985, 1986, and 1987 million square inch sales by the merchant silicon companies (Table 22) and captive silicon production (Table 23) in the four regions of the world. Internal production by the captive silicon producers, at 73 MSI, accounts for approximately 16.4 percent of the 445 MSI in the United States in 1987. The captive silicon market in Japan and Europe is much smaller, and ROW has no captive silicon production at this time. Japan had the largest share of the world million square inch market with 692 MSI, or 49.5 percent of the total square inch market in 1987.
Table 24
Total Silicon and Epitaxial Wafer Market by Region, 1985-1987 (Million Square Inches)
2M5. ISM 2M1
Merchant Silicon United States Japan Europe ROW Total—Merchant
Captive Silicon United States Japan Europe Total—Captive
Merchant and Captive Silicon United States Japan Europe HOW Total
307 564 140 43
1,055
91 24
_ _ f i 123
398 588 148 43
1,178
326 612 165 64
1,168
81 29
_ a 118
407 641 173 64
1,285
Source:
372 658 171 83
1,284
73 34 6
113
445 692 177 83
1,397
DatagueSt July 1988
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Silicon and Epitaxial Wafer Markets
HISTORICAL AND FORECAST DEVICE PRODUCTION BY REGION
The market for silicon and other fabrication materials is dependent upon the level of semiconductor device production in the different regions of the world. This section presents Dataquest's historical and forecast production revenue for captive and merchant semiconductor manufacturers by region of production.
Historical Production Revenue by Region
Table 25 presents historical semiconductor production revenue (merchant and captive) from 1982 through 1987. In this table, United States refers to device production in the United States by either a U.S., Japanese, European, or ROW semiconductor manufacturer. A similar definition applies to producers of semiconductor devices in Japan, Europe, and ROW. (Please note that the regional designation. United States, includes Canadian semiconductor manufacturing activities.)
Table 25
Historical Semiconductor Production by Region*, 1982-1987 (Millions of Dollars)
CAGR 1982 1983 1984 1985 1986 1987 1982-1987
United States $ 9,017 $10,912 $15,551 $12,607 $13,343 $15,791 11.9% Growth 21.0% 42.5% (18.9%) 5.8% 18.3%
Japan 5,688 8,055 11,970 10,606 14,832 18,504 26.6% Growth
Europe 2,299 2,539 3,474 3,402 4,057 4,765 15.7% Growth
ROW 98 175 237 394 545 796 52.0% Growth
World $17,102 $21,681 $31,232 $27,009 $32,776 $39,855 18.4% Growth 26.8% 44.1% (13.5%) 21.4% 21.6%
ARegion of device production, not country of company ownership Note: Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
48 © 1988 Dataquest Incorporated July SEMS Markets and Technology 0000819
8,055 41.6%
2,539 10.4%
175 78.6%
11,970 48.6%
3,474 36.8%
237 35.4%
10,606 (11.4%)
3,402 (2.1%)
394 66.2%
14,832 39.8%
4,057 19.3%
545 38.3%
18,504 24.8%
4,765 17.5%
796 46.1%
Silicon and Epitaxial Wafer Markets
Forecast Production Revenue by Region
Table 26 presents Dataquest's forecast of production revenue for merchant and captive semiconductor manufacturers by region of production.
Table 26
Forecast Semiconductor Production By Region*, 1987-1992 (Millions of Dollars)
CAGR 1987 1988 1989 1990 1991 3-99? 1987-1992
United States $15,791 $19,219 $20,858 $21,914 $25,917 $31,089 14.5% Growth 18.3% 21.7% 8.5% 5.1% 18.3% 20.0%
Japan 18,504 23,274 25,565 24,454 27,471 32,538 12.0% Growth
Europe 4,765 5,553 6,299 6,446 7,253 9,159 14.0% Growth
ROW 796 1,076 1,364 1,433 2,127 3,153 31.7% Growth
World $39,855 $49,122 $54,086 $54,247 $62,767 $75,939 13.8% Growth 21.6% 23.3% 10.1% 0.3% 15.7% 21.0%
*Region of device production, not country of company ownership Note: Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
1 8 , 5 0 4 24 .8%
4 , 7 6 5 17 .5%
796 4 6 . 1 %
2 3 , 2 7 4 25.8%
5 , 5 5 3 16.5%
1 ,076 35 .2%
2 5 , 5 6 5 9.8%
6 , 2 9 9 13.4%
1,364 26.8%
2 4 , 4 5 4 (4.3%)
6 , 4 4 6 2 .3%
1 ,433 5 .1%
2 7 , 4 7 1 1 2 . 3 %
7 , 2 5 3 12 .5%
2 , 1 2 7 48.4%
3 2 , 5 3 8 18 .4%
9 , 1 5 9 2 6 . 3 %
3 , 1 5 3 48.2%
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Silicon and Epitaxial Wafer Markets
HISTORICAL AND FORECAST SILICON CONSUMPTION BY REGION
Dataquest assumes that, in a given year, the total square inches of silicon sold by the merchant silicon companies or produced by the captive silicon producers will be consumed by semiconductor manufacturers in that same year. This corresponds to an inventory flow at steady state conditions. With that assumption in mind, the historical and forecast silicon market is presented.
Silicon Consumption by Region
Table 27 contains Dataquest's analysis of historical silicon consumption by region. In 1986 and 1987, all regions experienced growth in silicon consumption after the industry downturn in 1985. In Table 27, it appears that semiconductor manufacturers in the United States were hit worst by the industry recession in 1985, with a reduction in silicon consumption of almost 44 percent. In actuality, the decline in 1985 may not have been quite that severe, because significant silicon purchases in late 1984 went into inventory for device production in 1985.
Table 27
Historical Silicon Consumption by Region*. 1982-1987 (Million Square Inches)
United States Growth
Japan Growth
Europe Growth
ROW Growth
Total Growth
1982
480
266
103
26
875
1983
566 17.9%
428 60.9%
112 8.7%
35 34,6%
1,141 30.4%
1984
707 24.9%
661 54.4%
160 42.9%
51 45.7%
1,579 38.4%
1985
398 (43.7%)
588 (11.0%)
148 (7.5%)
43 (15.7%)
1,177 (25.5%)
198^
406 2.0%
641 9.0%
173 16.9%
64 48.8%
1,284 9.1%
1987
445 9.6%
692 8.0%
177 2.3%
82 28.1%
1,396 8.7%
CAGR 1982-1987
(1.5%)
21.1%
11.4%
25.8%
9.8%
*Region of s i l i c o n consumption, n o t country of company ownersh ip Note: Columns may not add to t o t a l s shown because of round ing .
Source;
50 © 1988 Dataquest Incorporated July
Dataquest July 1988
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In 1986, silicon MSI consumption in the United States and Japan experienced modest growth, at 2.0 percent and 9.0 percent, respectively. Europe and ROW experienced more vigorous growth in silicon consumption, which was up 16.9 percent and 48.8 percent, respectively. Overall, world silicon MSI consumption grew 9.1 percent in 1986. In 1987, world silicon consumption increased 8.7 percent to 1,396 MSI.
Table 28 contains Dataquest's forecast of silicon consumption by captive and merchant semiconductor manufacturers by region of device production. In general, we believe that the growth in silicon consumption tracks with growth in device production revenue in each of the four regions through 1992. We believe the long-term trend will be for silicon consumption (in MSI) to grow more slowly than production revenue (as measured in dollars). This translates to a slowly increasing revenue per square inch as a function of time. Factors that increase revenue per square inch include higher device ASPs and device yields. ASPs will increase as higher-valued products such as ASICs become a larger percentage of the product mix. Yields should improve as manufacturers focus on tighter particulate control and achieve shorter cycle times through manufacturing automation. However, as devices become more complex, die size typically increases. This will slow the upward trend of average revenue per square inch since yields drop with proportionately larger chips.
Table 28
Forecast Silicon Consumption by Region*, 1987-1992 (Million Square Inches)
United States Growth
Japan Growth
Europe Growth
ROW Growth
Total Growth
1997
445 9.6%
692 8.0%
177 2.3%
82 28.1%
1,396 8.7%
1988
516 15.9%
791 14.3%
202 14.2%
106 28t7%
1,615 15.7%
19?9
543 5.3%
836 5.6%
223 10.2%
124 17.4%
1,726 6.9%
1990
560 3.0%
784 (6.2%)
222 (0.5%)
118 (4,5%)
1,683 (2.5%)
1991
633 13.2%
855 9.1%
244 10.3%
153 29.1%
1,885 12.0%
1992
738 16.5%
983 15.0%
294 20.2%
197 28.9%
2,211 17.3%
CAGR 1987-1992
10.6%
7.3%
10.7%
19.1%
9.6%
ARegiou of silicon consumption, not country of company ownership Note; Columns may not add to totals shown because of rounding.
Source: Dataquest July 1988
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Silicon and Epitaxial Wafer Markets
Wafer Size
The changing mix of wafer size is an indicator of the penetration of leading-edge equipment and new fab capacity. Further, as wafer diameter increases, poly usage increases at a more rapid rate, due to greater wafer thickness at the larger diameters. The estimated percentage of consumption of MSI of silicon by wafer size for 1985 through 1992 is presented in Table 29. This information reflects Dataquest's estimate of wafer size consumption for semiconductor production in the United States.
For convenience, Table 29 has been translated into percent wafer starts, presented in Table 30. Wafer starts are calculated by taking the percent consumption for a given wafer size in a given year, multipljdng by the U.S. silicon consumption in that year, and dividing by the number of square inches in that given wafer size.
Table 29
United States Square Inch Distribution by Wafer Size, 1985-1992 (Percent Million Square Inches)
Diameter 1985 1986 1987 1988 1989 1990 1991 1992
2-Inch 3-Inch 100mm 125mm 150mm 200mm
0.5% 6.8%>
55 .3% 29 .9%
7.5% 0
0.4% 5.9%
44 .9% 33 .9% 14.9%
0
0 . 1% 3 .3%
3 6 . 3 % 4 0 . 1 % 19.4%
0.7%
0 . 1% 2.8%
3 4 . 3 % 39 .0% 22 .1%
1.7%
0 . 1 % 2 .3%
32 .2% 3 6 . 1 % 26 .7%
2.6%
0 . 1 % 1.8%
30.2% 33 .0% 3 1 . 3 %
3.7%
0 1.3%
2 8 . 1 % 29.9% 35 .9%
4 .8%
0 0 .8%
2 6 . 1 % 27 .0% 40 .4%
5.7%
MSI 398 406 445 516 543 560 633 738
Source; Dataguest July 1988
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Table 30
United States Wafer Start Distribution by Wafer Size. 1985-1992 (Percent Million Wafer Starts)
Diamete
2 - I n c h 3 - I n c h lOOnim 125nun ISOrnm 200mm
Wafe r s
ir
(M)
1985
2 . 1 % 12 .8% 60 .5% 20.9%
3.6% 0
2 9 . 9
1986
1.8% 12.0% 52 .9% 25 .5%
7.8% 0
2 8 . 3
1987
0.6% 7 .3%
4 7 . 2 % 33.4% 11 .2%
0.2%
2 8 . 1
1988
0 .5% 6.4%
45 .9% 33.4% 13.2%
0.6%
3 1 . 7
1989
0.4% 5.4%
44 .7% 32.0% 16 .5%
0.9%
3 2 . 2
1990
0 .3% 4 .4%
4 3 . 5 % 30 .4% 20.0%
1.3%
3 1 . 9
1991
0.2% 3 .3%
4 2 . 1 % 28 .6% 23.9%
1.8%
3 4 . 7
1992
0 . 1 % 2 . 1 %
40 .6% 26.9% 28.0%
2.2%
3 8 . 9
Source: Dataquest July 1988
In 1987, 125mm wafers represented the largest segment of wafer size distribution by percentage of MSI, with 40.1 percent. Dataquest expects 125mm wafers to continue to represent the majority of MSI processed in the United States until the 1990 to 1991 time frame. At that time, Dataquest estimates that each of the three major sizes—100mm, 125mm, and 150mm wafers—will represent approximately. an equivalent amount of square inches, on the order of 30 percent each. Dataquest believes that 125mm wafer consumption in the United States has been strong because it provides an interim step in the technology transition to ISOmm wafer processing. Dataquest believes, however, that the majority of new fab capacity in the United States over the next several years will be for ISOmm wafer processing and that by 1992, ISOmm wafers will represent 40.4 percent of MSI consumption.
Device production on 200mm wafers is still in its infancy. Dataquest expects that large-scale movement into 200mm production will not occur imtil some time after 1991. Note that 200mm wafers are forecast to be 5.7 percent of the wafer size mix, as measured in MSI, in 1992. This translates to only 2.2 percent of the wafer starts in that year. This apparent paradox is due to the proportionately larger area represented by a 200mm wafer—it is almost 1.8 times larger than a ISOmm wafer, 2.5 times larger than a 125mm wafer, and 4.0 times larger than a 100mm wafer. When 100mm wafers are evaluated on the basis of wafer starts, they dominated the 1987 wafer size distribution, with 47.2 percent of wafer starts. Even with new 150mm capacity coming on-lme, the 100mm wafer size is expected to continue to represent the largest segment of the wafer size distribution in 1992, accounting for 40.6 percent of all starts in the United States.
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