Cara Ellis Portfolio Architecture 2015

CARA ELLISDESIGN PORTFOLIO

SANTA CLARA UNIVERSITY MASTER PLAN STUDY

SANTA CLARA UNIVERSITY

MASTERPLAN

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Project Context• Executive Summary• Campus Facilities Masterplan Overview

Program Analysis• Course & Campus - Analysis Summary• Engineering Analysis• Sciences Analysis• Current & Notional Program• Options & Synergies

Master Planning• Options Summary• Option 1 - One Destination• Option 2 - Re-Group & Re-Create• Option 3 - A Whole New Place• Option 4 - Renovate & Regroup• Phasing

Appendices• A - Flexibility • B - Extended Data

Santa Clara University - Master Plan StudyProduced by Cannon Design 06-17-2013

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AB

Project Context• Executive Summary• Campus Facilities Masterplan Overview

Program Analysis• Course & Campus - Analysis Summary• Engineering Analysis• Sciences Analysis• Current & Notional Program• Options & Synergies

Master Planning• Options Summary• Option 1 - One Destination• Option 2 - Re-Group & Re-Create• Option 3 - A Whole New Place• Option 4 - Renovate & Regroup• Phasing

Appendices• A - Flexibility • B - Extended Data

Santa Clara University - Master Plan StudyProduced by Cannon Design 06-17-2013

CONCISE VERSION

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SANTA CLARA UNIVERSITY FACILITIES MASTER PLAN

• Law School - Demolish Heafey - Renovate Bannan - Vacate Bergin Hall - New Building on Heafey Site - 100,000 SF

Net Area Gain = 38,474 SF

• Engineering Campus - Demolish Bannan Labs - Renovate Mechanical Engineering - Renovate Bannan Engineering - Construct new facility - 70,000 SF

Net Area Gain = 52,035 SF

• Integrated Science Facility - Demolish Daly Science 100, 200, 300 - Construct new facility - 100,000 SF

Area Increase - 60,722 SFEXISTING SITE

Campus Facilities Masterplan OverviewSanta Clara University - Master Plan Study

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Engineering Campus

• Bannan Engineering bldg. - 3 stories - Gross Area = 44,338 SF - Net Area = 29,028 SF

• Mechanical Engineering bldg. - 2 stories - Gross Area = 27,689 SF - Net Area = 21,440 SF

• Bannan Labs bldg. - Gross Area = 12,954 SF - Net Area = 9,955 SF

Gross Area All 3 Existing Buildings = 84,981 SFNet Area All 3 Existing Buildings = 60,423 SF

Total Area Assumed for Enginnering with demolition of Bannan Labs, renovations and new contruction = 142,027 SF

Law School

• Bannan Hall - 3 stories - Gross Area = 49,600 SF - Net Area = 27,785 SF

• Heafey-Bergin bldg. - Gross Area = 65,000 SF

Gross Area of Existing Buildings = 114,600

Total Area Assumed for Law School with renovations and new contruction = 136,370 SF

Integrated Science Facility

• Daly Science bldgs. 100, 200, 300 - Gross Area = 54,713 SF

• Alumni Science bldg. - Gross Area = 52,326Gross Area of Existing Buildings = 107,039 SF

Total Area Assumed for Sciences with renovations and new contruction = 152,326 SF

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LECTURES

COURSES FOR ONE QUARTERGlobal Tech DevModlng & Cntrl of Rigd Bod DynSftwr Qlty Assrnc TstLogic Analysis & SynthesisParallel ThinkingHuman Interaction IGeologyIntro to Probability IDifferential EquationsLaw, Tech & Intell PropSemi-Cust Des W/Prog DevGender and EngineeringEngr Economics and BusinessComp Fluid Mech IAerospace StructuresNanotechnology and SocietyForms of NatureApplied Programming in CCommunication Sys L&LSoil-Structure InteractionAdv Logic DesignSecure Coding in C & C++Mechanics I: StaticsApplied Programming in CMultimedia Data Comp IEmag Fld Thry IDgtl Sgnl Proc IAdv Dynamics IIComputer NetworksCompilersPhase-Locked Lps IAcct & Cost Cntrl Project ManElectronic Circuits IProject Risk ManagementFinite Element Theory & ApplSemiconductor Dev I L&LSustainable Electric EnergyAdvanced ProgrammingMunicipal Engineering DesignMicrofab & Microfluid for BioeDes & Fabrication of PV CellsManag. in the Multicult EnvirnIc Assembly & Pkg Tech

Mech III:Strgth of Mtrls LabMech III:Strgth of Mtrls LabMech III:Strgth of Mtrls LabBioSignals and Processing LabReinforced Concrete Design LabReinforced Concrete Design LabWater Resources Design LabGeology LabGeology LabGeology LabMunicipal Engr Design LabMunicipal Engr Design LabElectric Circuits I LabElectric Circuits I LabElectric Circuits I LabElectric Circuits I LabElectric Circuits I LabElectric Circuits I LabElectric Circuits I LabMechatronics LabMechatronics LabElectronic Circuits I LabElectronic Circuits I LabModern Network Synth & Des LabIntro to Tissue Engineerng LabIntro to Power Electronics LabSemiconductor Devices LabCommunication Systems LabAdv Logic Design LabAdv Logic Design LabMechanical Vibrations LabMechanical Vibrations LabMechanical Vibrations LabHeat Transfer LabHeat Transfer LabHeat Transfer LabMdrn Instrument for Engrs-LabMdrn Instrument for Engrs-LabMdrn Instrument for Engrs-LabIntro to CNC IIIntro to CNC IIIntro to CNC IIIntro to Material Science Lab

Design Project IIDesign Project IIAdvanced Design II:Implementat

SeminarSolar Decathlon Workshop

LABS PROJECT WORKSHOP SEMINAR

75%57%

GRAD

23%1.3% .4% .3%

Cad for McrwvsApplied Math ILinear Algebra IITopics Comp EngrGuid & Cntrl IBiological Transport PhenomenaIntroduction to Biofuel EngrWater Resources DesignHeat TransferInt/Fml Lng Thy&CmplcnstEngr Project for the CommunityComp Perf EvalFund of Semiconductor PhysicsSoftware Eng. CapstoneEstimation TheoryLogic Design Using HDLVibrations IDsgn Cold-Frmd Steel Frame StrDifferential Equations:HonorsStructural Steel Des IIProbability & Statistics:HonorIntro to Nano-bioengineeringEffective Oral PresentationsFrac Mech & FatIgueIntro to CNC IIEffective Oral PresentationsDevelop of Construct DrawingsDevelop of Construct DrawingsTheory of WaveletsTopics Comp EngrParallel ProgrammingENGR ECON ADV CONCEPTS IITech Dev of New ProductsAdv. Engineering Math. IISys Conceptual DesPower SystemsSpec Top in Dynam & ContCont ProbNumerical Analysis IIFin Element Meth IIIntro to CommunicationVLSI Design IIGender and Engineering

Intro to Tissue EngineeringBioSignals and ProcessingEthics in TechnologyModern Network Synthesis & DesAdptv Sgnl Proc IIIntg Ckt Fab Proc IIRF Integ Cir DesignMaterials & Manufactur ProcessAnalog Integrated Circuits IAdvanced Mechatronics IIWeb UsabilityAdvanced ProgrammingElectric Circuits IIntro to Material ScienceMaterials & Manufactur ProcessReinforced Concrete DesignDesign Project IIComputer ArchitectureOO Analysis,Design,ProgrammingSoftware Dev Proc MgmtHigh Perf NtwrkgHigh Perf NtwrkgMachine Design IMechanical VibrationsManag. in the Multicult EnvirnMechanics II: DynamicsComputer NetworksMechanical VibrationsElectrical Engr Grad SeminarInformation Security MgmtDesign & Analysis: AlgorithmsSoftware EthicsIntro Altern Energy SysVLSI Design IMech III:Strength of MaterialsGraphical Comm in DesignSpecial Topics in CENGElectric Circuits IHeat TransferForm Spec & Adv Data StrucMechatronicsElectric Circuits IMech III:Strength of Materials

Construction EngineeringFormal Methods in Sw EngAdv. Proj. Mgmt & LeadershipMobile Application DevelopmentInformation TheoryHuman Resource DevIntro to Power ElectronicsComp. Aided Prj Mgmt SchLinear Algebra IDatabase SystemsNetwork ManagementTime Series AnalysisDifferential EquationsDifferential EquationsTheory of AlgorithmsBiomolecular Engineering IIMdrn Instrumentation for EngrsProbability & StatisticsHydraulic EngrProbability & StatisticsProbability & StatisticsDifferential EquationsDifferential EquationsNumerical MethodsEquilib ThermodynMedical Device Prod DevlopmentApplied Programming in MATLABApplied Programming in MATLABAdaptive Control IIDigital Image ProcessingTechnology EntrepreneurshipWireless & Mobile NetworksNanomaterialsIntro to Smart GridConv Heat Mass Tr IMdrn Instrumentation for EngrsInfrastructure Project MgmtElec Struct and Prop.Operating SystemsLinear Control SystemsEarthquake Engr IIGeologyIntro to Material Science

Intro to Material Science LabIntro to Material Science LabIntro to Material Science LabGraphical Comm in Design LabApplied Programming in C LabApplied Programming in C LabApplied Programming in C LabApplied Program in MATLAB LabApplied Program in MATLAB LabApplied Program in MATLAB LabApplied Program in MATLAB LabAdvanced Programming LabAdvanced Programming LabAdvanced Programming LabForm Spec & Adv Data Struc LabForm Spec & Adv Data Struc LabComputer Networks LabComputer Networks LabInt/Fml Lng Thy&Cmplcnst LabInt/Fml Lng Thy&Cmplcnst LabOO Analysis, Design, Prog LabWeb Usability LabGraphical Comm in Design Lab

GREEN TEXT NOTES COURSES WITH 30+ STUDENT ENROLLMENT

NO COURSES OVER 30 PEOPLE NO COURSES OVER 30 PEOPLE NO COURSES OVER 30 PEOPLEBLUE TEXT NOTES COURSES WITH 30+ STUDENT ENROLLMENT

How to Become an EngineerAnalysis

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ALUMNI SCIENCE = 11FINE ARTS BLDG. = 7ARTS AND SCI. = 85BANNAN HALL = 11CASA = 4DALY SCI. = 40ENG. = 2,126GRAHAM = 11KENNA = 201KENNEDY = 16LOYOLA = 2LUCAS HALL = 6MAYER THEATER = 3O’CONNOR HALL = 98SOBRATO HALL = 3

20% OF COURSES ARE NOT HELD IN

THE ENGINEERING BUILDINGS

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Engineering Courses Campus Distribution - the Octopus EffectAnalysis

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Head of the ClassNumber of classes

# of

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ove

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10 - 15Students

<10Students

16 - 30Students

31 - 45Students

46 - 60Students

61 - 75Students

75 - 99Students

100+Students

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The number of courses in all engineering disciplines over a 4 year period of time, 2009 - 2013 illustrates the large number of classes within the 16 to 30 person range.

Additionally, the combined total of 999 classes in that same period with less than 16 students reveals the need for flexible small spaces versus large lecture spaces.

This graph does not differientiate between lecture, seminar or lab, but instead gives a glimpse into the general class size for engineering courses across the university.

Classes

Head of the Class - EngineeringAnalysis

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FALL

WINTER

10% 20% 30% 40% 50% 60% 70% 80%

SPRING

AVERAGE

AVERAGE

UNDERGRADUATE

GRADUATE

39%LECTURE

18% LAB

55%CAPACITY

FALL

WINTER

SPRING

10% 20% 30% 40% 50% 60% 70% 80%

14%LECTURE

6% LAB

47%CAPACITY

LAB UTILIZATION

LECTUREUTILIZATION

CAPACITY *CAPACITYAVERAGE ENROLLMENT OVERROOM CAPACITY (STUDENTS / SF)

*UTILIZATIONNUMBER OF HOURS/ WEEK ROOM HOSTS SCHEDULED COURSES OVER A 60 HOUR WEEK (12 HOURS/ DAY)

Where to Become an EngineerAnalysis

Our analysis of the courses held in the existing Engineering epicenter demonstates a higher demand for lecture space than specialized lab space.

The low utilization of lab space suggests hybridizing non-specialist labs to serve as both classroom and labs. (Non specialist labs far outnumber specialist labs, see appendix for detailed room by room analysis for 2012-2013).

Lecture rooms that can accomodate 16 to 30 students are in high demand.Large lecture spaces that seat over 50 students are chronically under capacity.

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The Future...Master Planning Summary

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Combined Science & Engineering The Law School

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Recommended Approach3 4

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PALM DRIVETH

E AL

AMED

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Recommended Approach

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IntegratedSciecne and Engineering

Courtyard

Offices

Offices

SpecialtyLabs

Psychology +Classrooms

Classrooms +Library

Classrooms +Faculty Res. + Offices

CLABS +Offices

*Law SchoolCourtyard

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4 Renovate & Re-GroupMaster Planning

SITE PLAN CONCEPT

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• NEW CONSTRUCTION = 169,620 SF ENGINEERING & SCIENCE

• NEW CONSTRUCTION + BANNAN ENGINEERING RENOVATION + BANNAN MECHANICAL RENOVATION + BANNAN HALL RENOVATION =

• 291,247 SF (USING GROSS RENOV. AREAS)

• NEW CONSTRUCTION = 92,965 SF NEW LAW BUILDING

• NEW CONSTRUCTION + RENOVATION OF ALUMNI SCIENCE FOR LAW PROGRAMS = 145,291 SF GROSS

• NOTE: USES GROSS AREAS FOR ALUMNI RENOVATION, MAY BE CLOSER TO 136,370 SF REQUIRED ON FURTHER ANALYSIS OF ALUMNI NET USABLE AREAS

PERSPECTIVE

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Flexibility, Utilization & CollaborationAppendix A - Flexibility

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MOBILE WORKSTATIONfabrication shop / heavy-use labsuite & multi-shop use

MOBILE WORKSTATIONcloud-enabled, suite & multiple room use & lecture use

MOBILE WORKSTATIONcloud enabled, everywhere use

MOBILE WORKSTATIONcloud enabled,everywhere use

IMMOBILE WORKSTATIONpotentially cloud-enabled, single room use

MOBILE WORKSTATIONpotentially cloud-enabled, suite or multipurpose room use

Technology Meets FlexibilityAppendix A - Flexibility

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Downtown District Commercial Blocks as seen from the central roundabout transit hub.

Downtown Commercial Blocks

We designed the first two blocks of the Downtown Commercial District. Our major objective was to define the edge of the boulevard park with a “street-wall” of 10 story buildings. A continuous arcade shades the sidewalk and provides continuous shop fronts along the boulevard. Towers of various heights are set back behind the street-wall and establish a dynamic skyline.The incessant power of the sun dictates that all glass must be shaded and therefore we used a concrete exoskeleton that both shades the glass and allows for the movement of air along the facade. The Towers employ a system of external fins at various angles to the sun to protect the vision glass.

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selectARCHITECTURE

| PENCDowntown DistrictDowntown Commercial Blocks |

Previous Page: Aerial Perspective of the Downtown District Commercial Blocks. This Page: Aerial perspective of the icon tower.

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| PENCDowntown District

Structural Frame30% Shading

Rendering and details of the low-rise off building facades and shad-ing systems. The exposed structure in combination with horizontal and vertical louver systems shades the office glass while maintain view out to the boulevard beyond.

Structural Frame+ Horizontal Shade50% Shading

Structural Frame+ Horizontal Shade+ Vertical Fins95% Shading

Downtown Commercial Blocks |

Previous Page: Rendering and details of typical lowrise facade solutions. This Page: Rendered Detail of the Icon tower facade system. A series of fixed perforated metal louvers shades the tower glass from the sun while providing views out to the surrounding city.

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| PENCDowntown DistrictDowntown Residential Blocks |

Previous Page: Rendered plan of the Downtown District Residential Blocks. This Page: Massing Perspective showing unit mix.

3 BD UNITS

4 BD UNITS

4 BD UNITS

2 BD UNITS

CLUB

CORE

LEGEND

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3 BD UNITS

4 BD UNITS

4 BD UNITS

2 BD UNITS

CLUB

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3 BD UNITS

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Perspective rendering of the Personal Floor Blocks fronting Formula 1 road.

Personal Floors Blocks

“Personal Floors” refers to large, luxurious apartments, around 4000 SF, where only two units share an elevator core. The site, long and thin, suggested two parallel rows of buildings of various heights, surrounding private gardens, raised one level above parking. Large balconies facing south are shaded by sliding wood screens.

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| PENCVilla District

DESIGN PRINCIPLES:• Place taller, higher density buildings facing the formula 1 circuit to provide higher values• Place lower buildings facing the Country Homes villas to the south to maintain the neighborhood scale• Create a strong street wall facing formula 1 by mixing tall towers with mid-rise buildings• Ensure a good mix of unit types to cater to a diverse market

CONTINUOUS EAST-WEST LINEAR

GARDEN TO CONNECT THE ENTIRE

NEIGHBORHOOD

ALL UNITS ARE ‘THROUGH’ UNITS TO CAPITALISE ON VIEWS

NORTH-SOUTH VIEW CORRIDORS AND PEDESTRIAN

CONNECTIONS BETWEEN THE KOUNTRY HOMES

AND FORMULA 1

Personal Floors Blocks |

Massing perspective looking towards the central downtown roundabout along Formula 1 road.

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Rendered site plan for the

Personal Floor Blocks showing

interior courtyards.

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Rendered site plan for the

Personal Floor Blocks showing

interior courtyards.

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perforated copper panel

stacked lumber brise - soleil

perforated zinc screen

perforated corten steel panel

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COMPETITION ENTRY UA STUDIO CHICAGO 2009

AMSTERDAM-NOORD BUIKSLOTERHAM FABRIEK COMPETITION ENTRY UA STUDIO CHICAGO 2009

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AMSTERDAM-NOORD BUIKSLOTERHAM FABRIEK COMPETITION ENTRY UA STUDIO CHICAGO 2009


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5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







UA STUDIO

12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







UA STUDIO

12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views









12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

10

1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

2

3

4

5 66

7

8

9

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1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







12

1

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5 66

7

8

9

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1111

11

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2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







UA STUDIO

12

1

2

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7

8

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1111

11

11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

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7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views








AMSTERDAM-NOORD BUIKSLOTERHAM FABRIEK RF : garden

L5 : restaurant

L4 : flex. lab / office


L2 : exhibit / lab

L1 : exhibit / lab

M : retail / cafe

GR : retail / cafe / gallery

RF : garden

RF : garden

400 m2

650 m2 600 m2

840 m2

240 m2

330 m2300 m2

500 m2

240 m2

330 m2300 m2

500 m2

650 m2 600 m2

400 m2

650 m2 600 m2

840 m2

650 m2

400 m2

650 m2 600 m2

840 m2

650 m2

1,250 m2

2,490 m2

1,370 m2

2,490 m2

1,370 m2

2,490 m2

1,680 m2 3,910 m2 3,000 m2 3,520 m2 12,110 m2

net usable area


RF : garden

L5 : restaurant



L2 : exhibit / lab

L1 : exhibit / lab

M : retail / cafe

GR : retail / cafe / gallery

RF : garden

RF : garden

400 m2

650 m2 600 m2

840 m2

240 m2

330 m2300 m2

500 m2

240 m2

330 m2300 m2

500 m2

650 m2 600 m2

400 m2

650 m2 600 m2

840 m2

650 m2

400 m2

650 m2 600 m2

840 m2

650 m2

1,250 m2

2,490 m2

1,370 m2

2,490 m2

1,370 m2

2,490 m2

1,680 m2 3,910 m2 3,000 m2 3,520 m2 12,110 m2

net usable area


12

1

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4

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1111

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11


2_ town square

3_ parking ramp

4_ public quay

5_ wetlands park

6_ sluice gates

7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







UA STUDIO

12

1

2

3

4

5 66

7

8

9

10

1111

11

11


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3_ parking ramp

4_ public quay

5_ wetlands park

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7_ waterside park

8_ bicycle path

9_ playing field

10_ marina

11_ views







River Grove TowerHigh-Rise Residential Building S1

E1

E2

Stair 2

Stair 1

Trash

T/E

ServiceLobby

15'

18'

13'

11'

12'7'

13'

6'

K

T

BR-KLR/D

11'

17'

13'

6'

10'

13' 12'

7'

BR-Q

KLR/D

T

12'

11'BR-KBR-K 23

'13'

LR/D

7'

10'

T

13'

6'

K

T(2)

(3)

(1)

(2)

(3)

(2)

(3)

2BR 2BAType 1

984 RSF1 BR(K)Type 2

703 RSF

1 BR(Q)Type 3

604 RSF

Alternating

0' 2' 4' 8' 16'

Count

10 Units, 2 Elevator Plan

2 - 2BR. 2BA @ 984 RSF @ $1.50 $2952 $1,476.00

Gross/ Floor = 8,988 GSF

Ann. Gross Revenue $1,942,920 $2,252,377

Cap Rate - 7% Yr5 $30,550,971* - $212.56/ GSF*

4 - 1BR (K) @ 703 RSF @ $1.50 $4218 $1,054.50

Rentable/ Floor = 7,196 RSF

Occupancy (95%) $1,845,775 $2,139,758*

Cap Rate - 6% Yr5 $35,642,731* - $250.00/ GSF*

4 - 1BR (Q) @ 604 RSF @ $1.50 $3624 $904.50

Floor Effi ciency = 80%

Net Revenue (80%) $1,476,619 $1,711,806

Cap Rate - 5% Yr5 $42,771,360* - $297.58/ GSF*

10 Units 719 RSF Avg Av Per Unit $1,079.40

Total = 7,196 RSF Per Floor/ Per Mo $10,794.00

Type @ Size Rent Rate Rent (Each Unit)

Building Revenue/ Valuation*150 Units, 15 Floors + Lobby

5 yrs @1.03 Escalation

RICHTON PARK & RIVER GROVE TOWERS - TYPICAL FLOOR PLAN1/32” = 1’

* Residential only, excludes value of parking, land, infrastructure subsidy, & retail revenue.

Cost Anticipated + $200/ GSF

S1

E1

E2

Stair 2

Stair 1

Trash

T/E

ServiceLobby

15'

18'

13'

11'

12'7'

13'

6'

K

T

BR-KLR/D

11'

17'

13'

6'

10'

13' 12'

7'

BR-Q

KLR/D

T

12'

11'BR-KBR-K 23

'

13'

LR/D

7'

10'

T

13'

6'

K

T(2)

(3)

(1)

(2)

(3)

(2)

(3)

2BR 2BAType 1

984 RSF1 BR(K)Type 2

703 RSF

1 BR(Q)Type 3

604 RSF

Alternating

0' 2' 4' 8' 16'

Count

10 Units, 2 Elevator Plan

2 - 2BR. 2BA @ 984 RSF @ $1.50 $2952 $1,476.00

Gross/ Floor = 8,988 GSF

Ann. Gross Revenue $1,942,920 $2,252,377

Cap Rate - 7% Yr5 $30,550,971* - $212.56/ GSF*

4 - 1BR (K) @ 703 RSF @ $1.50 $4218 $1,054.50

Rentable/ Floor = 7,196 RSF

Occupancy (95%) $1,845,775 $2,139,758*

Cap Rate - 6% Yr5 $35,642,731* - $250.00/ GSF*

4 - 1BR (Q) @ 604 RSF @ $1.50 $3624 $904.50

Floor Effi ciency = 80%

Net Revenue (80%) $1,476,619 $1,711,806

Cap Rate - 5% Yr5 $42,771,360* - $297.58/ GSF*

10 Units 719 RSF Avg Av Per Unit $1,079.40

Total = 7,196 RSF Per Floor/ Per Mo $10,794.00

Type @ Size Rent Rate Rent (Each Unit)

Building Revenue/ Valuation*150 Units, 15 Floors + Lobby

5 yrs @1.03 Escalation

RICHTON PARK & RIVER GROVE TOWERS - TYPICAL FLOOR PLAN1/32” = 1’

* Residential only, excludes value of parking, land, infrastructure subsidy, & retail revenue.

Cost Anticipated + $200/ GSF

STUDIO PROJECT M. ARCH UNIT 5 FALL 2009

68 E. WACKER PLACE CHICAGO MOTOR CLUB HOTEL

2 0 0 9S A I C

Cara Ellis A6210_001_F09_cellis1_01

Mixed Use Commercial / Retail

Hotel

O�ce

Noteworthy Restaurants / Higher End Food

Hotel / Residential

Parking

Cultural

Vacant

Vehicular CirculationAt Street Level

Vehicular Circulation Below Grade

Service Circulation Below Grade

Ramp up to Grade (at Jackson)

Pedestrian Access Point to Below Grade

Service Accessible Zone Below Grade

Signi�cant Pedestrian Zone

1 2

3

4

1

2

3

4

Views to/ from Site: West Elevation, Most Prominent, Iconic

Views to/ from Site: East Elevation, Tighter Urban View, Michigan Corridor Context

Unsightly Back-of-House Facades, Parking + Mech. / Service - View Requires Occlusion

Proximity of Hotel 71 Facade Impacts Privacy - Solutions: Skin Design, Program Allocation

Site Analysis

Site Extents Existing Program Street Level

Existing Program Above Grade

Circulation Views Simple Sun Studies

Wacker Place

Mic

hig

an A

ven

ue

Wac

ker D

rive

Wab

ash

Str

eet


Elevations

South Elevation

1’ = 1/32 “

West Elevation1’ = 1/64”

East Elevation North Elevation with Context

North Elevation minus Context

Chicago Motor Club HotelHotel Tower and Renovation

STUDIO PROJECT M. ARCH UNIT 5 FALL 2009

68 E. WACKER PLACE CHICAGO MOTOR CLUB HOTEL

2 0 0 9S A I C


Mixed Use Commercial / Retail

Hotel

O�ce

Noteworthy Restaurants / Higher End Food

Hotel / Residential

Parking

Cultural

Vacant

Vehicular CirculationAt Street Level

Vehicular Circulation Below Grade

Service Circulation Below Grade

Ramp up to Grade (at Jackson)

Pedestrian Access Point to Below Grade

Service Accessible Zone Below Grade

Signi�cant Pedestrian Zone

1 2

3

4

1

2

3

4

Views to/ from Site: West Elevation, Most Prominent, Iconic

Views to/ from Site: East Elevation, Tighter Urban View, Michigan Corridor Context

Unsightly Back-of-House Facades, Parking + Mech. / Service - View Requires Occlusion

Proximity of Hotel 71 Facade Impacts Privacy - Solutions: Skin Design, Program Allocation

Site Analysis

Site Extents Existing Program Street Level

Existing Program Above Grade

Circulation Views Simple Sun Studies

Wacker Place

Mic

hig

an A

ven

ue

Wac

ker D

rive

Wab

ash

Str

eet


Elevations

South Elevation

1’ = 1/32 “

West Elevation1’ = 1/64”

East Elevation North Elevation with Context

North Elevation minus Context

The GFRY Kiosk is the first full-scale prototype of a Digeotruss Structure. Constructed of birch plywood, steel tensioning cable, and minimal hardware, the kiosk was entirely fabricated in house at SAIC, and assembled here by the GFRY team.

2 0 0 0 W A T TL I V I N GG F R Y 0 9

DIGEOTRUSS STRUCTURAL SYSTEM

CARA ELLIS

Buckminster Fuller has remained a vastly influential icon, not only for his optimistic vision of sustainable living, but also for his unique approach to architectural form. An early advocate of biomimickry, Fuller saw a fundamental, recurring geometry in nature that led him to understand shape as inherently derived from and dependent upon structure.

While Buckminster Fuller sought in nature the geometry of a pure sphere, I am interested in finding a structural basis for any irregular shape imaginable.

We differ not so much in content as in context: today, the term “parametric” can be applied to any idea-driven project; digital technology, combined with overwhelming access to information, has given rise to a plethora of formal possibilities… And still the inevitable question looms, how do we build it?

My work on the Digeotruss project is an attempt to tackle this question using the structural principles and economy of means exemplified in Buckminster Fuller’s Geodesic Dome:• Whereas a regular geodesic truss uses equilateral triangles to evenly distribute load, the Digeotruss system employs a flexible range of “close-to-equilateral” triangles - a kind of guided tesselation - that can approximate evenly distributed structures out of irregular, complexly curved forms.• Digeotruss is designed for ease of manufacture, employing only planar members with no custom joints or angled cuts. Made of multiple, non-homogenous components, a Digeotruss structure can be fabricated using only a laser-cutter or 3-axis milling machine.• Digeotruss is ultimately a method for dissecting complex NURBS surfaces into workable, structurally-based curve networks... which is to say, the possibilities of what it can be used for are vast and open to variation.

2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS

PLANNTS

D I G E O T R U S SChicago • Milan • ZurichA NOVEL STRUCTURAL SYSTEM

GFRY / SAIC / iSalone Milan 2009


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS





2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS

PLANNTS

D I G E O T R U S SChicago • Milan • ZurichA NOVEL STRUCTURAL SYSTEM

GFRY / SAIC / iSalone Milan 2009

DIGEOTRUSSNOVEL STRUCTURAL SYSTEM


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS





2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS

ELEVATIONNTS

I n h a b i t a t

http://www.inhabitat.com/2009/05/06/milan-2009-2000-watt-living-by-gfry-studio/


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS

The Digeotruss method employs geometry to produce inherently self-supporting structures out of complexly curved forms. Composed of planar members with no custom joints or angled cuts, Digeotruss can be flat-packed for shipping and assembled without power tools.

The GFRY Kiosk is the first full-scale prototype of a Digeotruss Structure. It has been exibited at the Fabbrica Del Vapore in Milan (Salone Internazionale del Mobile 2009), as well as in Chicago for SAIC•s �Making ModernÓ show (June 2009), and the �ACADIA (re)FormÓ Conference (October 2009).

PROJECT SYNOPSIS:

I n h a b i t a t

http://www.inhabitat.com/2009/05/06/milan-2009-2000-watt-living-by-gfry-studio/


2 0 0 0 W A T TL I V I N GG F R Y 0 9


CARA ELLIS

The Digeotruss method employs geometry to produce inherently self-supporting structures out of complexly curved forms. Composed of planar members with no custom joints or angled cuts, Digeotruss can be flat-packed for shipping and assembled without power tools.

The GFRY Kiosk is the first full-scale prototype of a Digeotruss Structure. It has been exibited at the Fabbrica Del Vapore in Milan (Salone Internazionale del Mobile 2009), as well as in Chicago for SAIC•s �Making ModernÓ show (June 2009), and the �ACADIA (re)FormÓ Conference (October 2009).

PROJECT SYNOPSIS:


2000 WATTLIVINGG F R Y 0 9


CARA ELLIS

Making Modern

RESEARCH PROJECT M. ARCH UNIT 4 SPRING 2008

SITE / PROJECT ANALYSIS

PERFORMANCE OBJECTIVE FOR INTERVENTION

PARAMETERS DEFINED

INITIAL DESIGN SHAPEBased on parameters and architectural / structural /

aesthetic judgement

ANALYSISEnvironmental software / physical

testing / formal judgementMANIPULATE TO OPTIMIZE

good?

RUN SCRIPT TO PANELIZE

MANIPULATE SCRIPTUsing built-in parameters

FURTHER PARAMETRIC MANIPULATION

Based on finer definition of panels (ex. aperture, thickness,

transparency, material...etc)

MANIPULATE SHAPETo improve panelization

DEFINE IN STANDARD ARCHITECTURAL DOCUMENTATION

Plan, section, elevation, detail, construction

COMPILE FOR 3D MASS-CUSTOMIZED MODULAR

CONSTRUCTIONDigital and drawing format, specifications model with

labled parts for manufacture / construction

PROPOSAL PRECIS:

A SCRIPT TOOL FOR GEODESIC TRANSLATION OF IRREGULAR SHAPES

The goal: to create a script/ tool capable of translating any simple or irregularly

curved surface/ shape into a set of tessellated (i.e. planar and non-overlapping)

triangles that:

1) Correspond as closely to the curvature of the surface/ shape as desired –

i.e. the density/number of triangles and the size of each triangle is defined by

steepness / extremeness of angle and the level of accuracy or min-max radius

range inputted.

2) The arrangement of triangles is constrained (unlike a render tessellation)

such that vertices only meet other vertices, making a vector-active structure.

3) The tessellation attempts to create modules as close to equilateral

triangles as possible (i.e. geodesic) within a given allowable range of variation

(in order to cope with irregular shapes). This entails working with points derived

from the surface that are not orthogonal but hexagonally arranged, i.e. 60-60-60

triangles rather than 45-45-90 triangles (as is usually outputted by UV surface

paneling tools).

4) The vertices of any triangles that meet are linked such that altering of one

also alters its neighbors – they are joined to behave as a single vertex or group of

vertices.

5) Each set of three triangular points defines the vertices of a triangular

plane that can be named and parametrically linked to a more complex physical

module, for example, a curtain-wall unit or a custom panel for a solar collecting

canopy. Altering of the simple plane will alter the shape of the externally linked

module.

6) The code-tool can accept any surface/shape by input / naming nodes,

allowing iteration (i.e. like a tool, “do this” to “this” surface/shape); the

advantage being that multiple iterations of a shape can be analyzed (using

software, Ectotect, Real Flow, Wind Tunnel…etc) for performance optimization,

and then re-run through the script without time-consuming manual manipulation.

EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

CLOSE-UP OF VERTEX PLATES

DOUBLE PANE GLASS WITH GAS-FILLED INSULATING TUBE

SPACE CAN BE FILLED WITH TRANSLUCENT FOAM INSULATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

M. ARCH UNIT 4 SPRING 2008



PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

2 0 0 8S A I C

UNIVERSAL HEXAPANEL JOINT RESEARCH PROJECT M. ARCH UNIT 4 SPRING 2008



PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

2 0 0 8S A I C

UNIVERSAL HEXAPANEL JOINT

UNIVERSAL HEXAPANEL HARDWARE DESIGN




PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

2 0 0 8S A I C

UNIVERSAL HEXAPANEL JOINT RESEARCH PROJECT M. ARCH UNIT 4 SPRING 2008



PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

2 0 0 8S A I C





PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




PARAMETERS DEFINED


aesthetic judgement



good?












PROPOSAL PRECIS:




triangles that:




range inputted.








paneling tools).



vertices.





module.






EXTERIOR PLAN VIEW

ELEVATION

EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW




EXTERIOR PLAN VIEW

INTERIOR PLAN VIEW

2 0 0 8S A I C


ScientificworkflowProgramanalysis

Lab Space TransformationB1 / B30 Transition Strategic Planning

09 -12 -2013

Equi

pmen

t W

orkflowsDiscovery Translational

SciencesDevelopment

Therapeutic Themes

BasicNon-GLP

Human BiologyData Creation

GLP RequirementsStructured by People

+ Products

P2 + P3 Clinical TrialsRegulatory (GLP)

Amgen at a Glance: R&D Workflow

1

1

2

3

4

5

Introduction + Amgen at a Glance

Molecular Science + CB + IVD Structure & Workflow

Clinical Immunology Structure & Workflow

Pharmacokinetics + DMD Structure & Workflow

Lab Space Transformation Hypothesis

1

Contents Introduction

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MassSpec

Tissue Culture

FACS + Imaging

MicroArray

I S I S

Common Open LabShared Instrumentation

Short Term Sample Storage

BSM + Material Management

LABMolecular

ScienceIn Vitro

Diagnostics

Computational Biology

Clinical ImmunologyAssays

Increasing emphasis on time spent in office vs. lab environment:Data Analysis / Modeling / Interpretation

S


Lab Work OfficeData Analysis

In Lab Samples

SI


S

= Instrumentation

= Support

I

2

MassSpec

Tissue Culture

FACS + Imaging

MicroArray

I S I S

Common Open LabShared Instrumentation

Short Term Sample Storage


LABMolecular

ScienceIn Vitro

Diagnostics

Computational Biology

Clinical ImmunologyAssays

Increasing emphasis on time spent in office vs. lab environment:Data Analysis / Modeling / Interpretation

S


Lab Work OfficeData Analysis

In Lab Samples

SI


S

= Instrumentation

= Support

I

2

IS

S


Sample Prep Bench(Automation)

In Lab Samples

Suite approach to workflow:Emphasis on equipment, especially hoods.

I S

BioAssay

I S

Outsourcing

ResearchOps

I

CytometryServices

S

I S

Immuno Assay

I S

In Vitro Diagnostics

I S

MechanisticImmunology

Staff Reps. from

IA + BA + CS

+

CORE LAB

OFFICE STAFF / PERIPHERAL

LAB

Emphasis on consulting:

idea - generation /

process guidance;

use of outsourcing to augment

assay production


MassSpec

Tissue Culture

Clinical Immunology Structure & Workflow

S

= Instrumentation

= Support

I

3

MassSpec

Tissue Culture

MassSpec

Pharmacokinetics + Discovery Metabolic Disorders Structure & Workflow

S

= Instrumentation

= Support

I 4

Small Molecule

I S

DMD

I S

I S

Large Molecule

Bio Analytical

LAB BIO ANALYTICAL


SI

MassSpec

RadioLabel

Automa-tion

Cell Culture

BSM + Material ManagementResearch Groups

DMD

Sample Prep Sample Prep

SI

MassSpec


Small Molecule

SIMSD

ELISA GYROS


Large Molecule

Sample Prep

MassSpec

Tissue Culture

MassSpec


S

= Instrumentation

= Support

I 4

Small Molecule

I S

DMD

I S

I S

Large Molecule

Bio Analytical

LAB BIO ANALYTICAL


SI

MassSpec

RadioLabel

Automa-tion

Cell Culture


DMD


SI

MassSpec


Small Molecule

SIMSD

ELISA GYROS


Large Molecule

Sample Prep

MassSpec

Tissue Culture

MassSpec


S

= Instrumentation

= Support

I 4

Small Molecule

I S

DMD

I S

I S

Large Molecule

Bio Analytical

LAB BIO ANALYTICAL


SI

MassSpec

RadioLabel

Automa-tion

Cell Culture


DMD


SI

MassSpec


Small Molecule

SIMSD

ELISA GYROS


Large Molecule

Sample Prep

I S I S I S I S

MassSpec

Clinical Immunology

Tissue Culture

BA IA CS

OS RO

MII S I S I S

MassSpec

PKDM

Tissue Culture

MSDELISA

GYROS

LM SM DMBio Analytical

I S I S

Molecular Science + CB + IVD

MassSpec

Tissue Culture FACS

MicroArray

MS IVD CB


Current State: “Continental Divide” 5

SElected art worksCollage • Painting • Animation& OTHER POST EARTH MUSINGS

2 0 1 0 - 2 0 1 4

SElected art worksCollage • Painting • Animation& OTHER POST EARTH MUSINGS

2 0 1 0 - 2 0 1 4

ABSTRACT + MoBILE ARTWORK

Cara Ellis Portfolio Architecture 2015

Documents

Transcript of Cara Ellis Portfolio Architecture 2015