Post on 16-Mar-2018
Further integration possibilities
UCP Hyper Converged
Otto de VroomenHDS Netherlands Principal Solution Consultant
Mode 1 vs Mode 2 Requirements
Mode 1: Systems of RecordData used for reference / processes
IT investments decrease / flatten as
enterprises consolidate applications and
infrastructure resources
Mode 2: Systems of EngagementData used for interaction and collaboration
IT investments increase as enterprises
leverage new 3rd platform applications to
enable competitive advantage
INNOVATIONKEEP THE BUSINESS RUNNING
MODE 1 MODE 2
Reliability; Always-On GOAL Agility; Fail Fast
Scale Up, Transactional WORKLOADS Scale Out, Web Tier / App Tier
Plan Driven, Approval Based GOVERNANCE Empirical – Short Term
Long CYCLE TIME Short
Introducing UCP HC
Next-Generation Hyper-Converged
Software-Defined Infrastructure
Linear Scale-Out
Purpose-Built for VMware
Enterprise-Ready Today
VM
© Hitachi Data Systems Corporation 2016. All rights reserved.12
UCP HC
Flexible Configurations
UCP HC V240 UCP HC V210 UCP HC V240F UCP HC V210F
Hybrid Hybrid All-Flash All-Flash
2U4N 2U1N 2U4N 2U1N
3TB 7.2TB 8TB 9 (38) TB
800GB SSD 2 x 800GB SSD 800GB SSD 2 x 800GB SSD
Config
Form Factor
Useable Estimated Capacity
Cache
Data Protection
Automation and Orchestration
Adaptable Usecases
Application-Defined Configuration
3
© Hitachi Data Systems Corporation 2016. All rights reserved.16
Compute Storage Network Memory
Two Intel Xeon
CPU per node
8, 10, 14 22
Cores
16-44 Cores per
node
2.9. 3.0. 3.3 GHz
800GB, 1.2 TB
Cache – 400 GB,
800 GB
SAS, SSD
10 GigE SFP+ or
RJ45 or 40 GigE
QSFP
10/100 Mbps or
10 Gbps
Any Network
Switch
Hybrid : 32 GB –
512 GB per node
All-Flash – 32-
768 GB per node
Radically Simple
Continuous Availability and Accessibility to Data
Multi-site Business Continuity
Local or Remote Replication
Non-disruptive Upgrades and Maintenance
Per-VM Availability Policy UCP HC
Live Demo