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Linux on zSeries Module 2: Consolidation

Linux on zSeries Module 2: Consolidation. Consolidation with Linux on z/Series. Objectives List the six major components of TCO (Total Cost of Ownership). Describe the differences between the three main types of consolidation from an application standpoint.

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Linux on zSeries Module 2: Consolidation

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  1. Linux on zSeriesModule 2: Consolidation

  2. Consolidation with Linux on z/Series Objectives • List the six major components of TCO (Total Cost of Ownership). • Describe the differences between the three main types of consolidation from an application standpoint. • Describe the differences between the two types of consolidation from an infrastructure standpoint. • List the five factors that must be taken into account with physical consolidation. • List three considerations for virtual consolidation. • List at least four ways that consolidation impacts on TCO. • Describe the differences in disk utilization of servers in a virtual consolidated environment vs. a server farm with discrete servers.

  3. Factors in industry • Cost: Total Cost of Ownership (TCO) • Time-to-market • Application skills

  4. Hardware Servers Disk Network System Management Racks (+cable) Software Operating system Linux SW support System management Database Application People Full-time equivalents Occupancy Area Utilities Migration Downtime Components of TCO

  5. How to survive • Optimize IT resources. • Provide competitive advantage. • Drive automation and simplicity into the IT Infrastructure.

  6. How does server consolidation lower TCO? • Increases utilization of server hardware, software, and networks. • Lowers employee cost, floor space, and energy. • Increases availability, lower downtime costs. • Allows consolidation of test and development servers. • Permits faster deployment of new servers. • Enhances security by protecting the kernel and most of the binaries on a z/VM read-only minidisk.

  7. Types of consolidation from an application standpoint • Centralization • Physical consolidation • Application integration

  8. Centralization • What is it? • Geographically distributed servers (WANS) are consolidated into one or a few centralized servers. • Benefit? • Personnel consolidation utilizes advances in network reliability.

  9. Physical consolidation • What is it? • Servers running the same applications can be consolidated by merging them together onto one server. • When to use? • When the servers being consolidated are generally of low/medium utilization. • If servers have not been recently updated to newer, faster machines. • Benefit? • Significantly lower the expense and effort of administration and maintenance. • Savings in software license fees.

  10. Applications integration • What is it? • This is a consolidation of different servers running different applications to one server. • Benefit? • Similar to physical consolidation in floor space, employees, etc.

  11. Types of consolidation from an infrastructure standpoint • Full consolidation • Virtual consolidation

  12. Full consolidation What is it? Several servers, running either the same or different applications, are consolidated on one server and one operating system image. Considerations • Security • Stability • Maintenance • Flexibility • Support

  13. Virtual consolidation What is it? • Servers are consolidated into the same number of operating system images running on one box by using the virtualization technology of z/VM on zSeries (n-to-n). • z/VM virtualization technology allows sharing of resources between the guest systems. Considerations • Network: more network bandwidth from computer center to the distributed locations. • Personal cost savings: • from changes in processes/organization • no change = small personnel savings • Depreciation of existing equipment.

  14. Virtual consolidation

  15. Considerations in virtual consolidation • ISV software • Networking • Personnel cost savings • Depreciation • Leasing or other contracts

  16. Server consolidation withLinux on z/VM

  17. Reasons driving consolidation • Avoid server farm growth problems. • Increased availability of a consolidated server farm. • Streamlining of a server farm environment.

  18. Shared disk space Discrete servers • Each server needs own disk space. • Many redundant files/data. Consolidated Linux on zSeries Virtual Servers • Share disk space among virtual Linux images. • Version control for your application software.

  19. Allowing for growth Horizontal Growth • Ideal for fast growing server environments. • Allows you to easily add servers.

  20. Consolidation formula • So how many distributed servers can be consolidated onto one machine? • Workload Dependency Factors • Application path length • Application specifics (Java, PHP, WAS, DB, etc.) • IO values for storage • IO values for the network • Cache and memory efficiencies dependent on architecture

  21. Consolidation formula • Formula: Processorsz = (Utilizationother * Processorsother * MHzother) / (MHzz * WLF) • Factors • Degree of utilization of servers • Number of processors • MHz rate of the servers • Workload factor (WLF)

  22. Example calculation • Sample simple calculation (not a official sizing) • 100 Intel single CPU machines • Clock speeds of 200 MHz • 5% CPU Utilization • Putting the workload onto a z800 running at 80% CPU utilization • The workload can be handled with 2 - 3 processors (CPUs)

  23. Sample consolidation with Samba Windows Environment: 105 servers, 5 PDCs, 30 print servers and 70 file servers • Hardware • 5 PDCs: 500 MHz P4, 512 MB RAM, 1 FastEthernet adapter, 30 GB disk • 30 print servers: 2x 500 MHz P4, 1 GB RAM, 1 FastEthernet adaptor and 60 GB disk • 70 file servers: 500 MHz P4, 512 MB RAM, 1 FastEthernet adapter and 120 GB disk • 10x 19" racks with, each for 11 servers plus network switch • Power • 115 x 300W = 34,5 KW • Space • 10x 19" racks floor space • Software • 105 Windows NT installations • Network • 10 network switches, with 11x FastEthernet ports and a GB-Ethernet port to for the connection to the company backbone network • People • 6 system administrators (~15 servers per administrator)

  24. Samba Linux Consolidated Samba on Linux for zSeries environment: 105 Linux instances running under z/VM • Hardware • 4 zSeries IFLs on existing HW, 32 GB RAM, 2 GB Ethernet adapters, for disk 12 ESS • storage system with 8 TB • Power and space • 7KW for one ESS storage system • One ESS storage system, floor space similar to 4x 19" racks. • No additional space and power for zSeries system. • Software • Cost for a Linux distribution (and consider, the Debian distribution is available for free) • z/VM for 4 IFLs • Network • 2 shared GB Ethernet adapters already mentioned in Hardware • People • In a highly optimized environment, 3 system administrators

  25. Sample infrastructure consolidation:L.L Bean • Direct merchant with over $1 billion yearly sales. • Replaced e-mail system for high priority applications with Sendmail/SUSE solution on zSeries. • 5X performance improvement over older system. • Sendmail is easier to use and more flexible than older system. • Mainframe reliability and scalability come to high priority e-mail application. • Software costs for traditional software running on same system unaffected due to use of IFL.

  26. Sample Web serving environment UNIX environment: 50 Intranet Web servers • Hardware • 50 Sun 220R system: 2x Ultrasparc II 300 MHz, 512 Mb RAM, 2 FastEthernet cards, • 18 GB disk • Power • 50 x 300W = 15 KW • Space • 5x 19" racks floor space • Software • Solaris is included with the HW • Network • 5 FastEthernet Network switches plus cables • People • 4 system administrators

  27. zSeries Web serving environment • Hardware • 4 IFLs, 16 GB RAM, 1 GB Ethernet adapter and 512 GB disk space • Power • None additional, add to existing zSeries and ESS systems • Space • None additional • Software • Cost for a Linux distribution (For example, Debian is free, but offers no commerical support.) • z/VM for 4 IFLs • Network • 1 shared GB Ethernet adapters, already mentioned in hardware • People • 3 system administrators

  28. Sample server hosting consolidation: Sonera Entrum • Sonera Entrum is the leading broadband Internet provider in Finland. • Provides high-speed Internet access for 500,000 private and 70,000 corporate subscribers. • Uses z900 and Linux to run 500 virtual servers on a single zSeries Server. • Uses ESS (SHARK) and both Red Hat and SuSE Linux.

  29. Getting started • Important to start small. • Choose application and set of servers that can be easily consolidated as a pilot; like infrastructure workloads. • Begin with an analysis of TCO goal to have a clear goal and measurable objective. • TCOnow! is one tool that analyzes this for you.

  30. Conclusion: Discrete vs. Consolidated Servers • z/VM Consolidated Servers: • resource sharing • one-to-one mapping • high availability • benefits from mainframe QOS • benefits from mainframe disaster recovery services • can connect to discrete servers as required • no cabling within server, transfers at memory to memory speeds with Hipersockets • Server farm growth leads to increased expenses in: • hardware price and maintenance • floor space, power, cooling • additional support staff/overall employees • per server (engine) software fees • network cabling (kilometers of cables) • spares/re-boots to aid high availability • disaster recovery testing is difficult to accurately implement

  31. Conclusion • The six major components of TCO are: • Hardware • Software • People • Occupancy • Migration • Downtime

  32. Conclusion The differences between the three main types of consolidation from an application standpoint • In centralization geographically distributed servers (WANS) are consolidated into one or few centralized servers. • In physical consolidation servers running the same applications can be consolidated by merging them together onto one server. • In application consolidation different servers running different applications are merged onto one server.

  33. Conclusion The differences between the two types of consolidation from an infrastructure standpoint • In full consolidation several servers, running either the same or different applications, are consolidated on one server and one operating system image. • In virtual consolidation servers are consolidated into the same number of operating system images running on one box by using the virtualization technology of z/VM on zSeries (n-to-n). z/VM virtualization technology allows sharing of resources between the guest systems.

  34. Conclusion Five factors that must be taken into account with physical consolidation are: • Security • Maintenance • Stability • Flexibility • Support

  35. Conclusion Factors that must be taken into account with virtual consolidation: • Networking • ISV software availability • Personal cost savings • Depreciation • Leasing or other contracts

  36. Conclusion How consolidation impacts TCO: • Increase the utilization of server hardware, software and networks. • Lower employee cost, floor space, and energy. • Increase availability, lower downtime costs. • Consolidation of test and development servers. • Permit faster deployment of new servers. • Security enhanced by protecting the kernel and most of the binaries on a z/VM read-only minidisk.

  37. Conclusion The differences in disk utilization of servers in a virtual consolidated environment vs. a server farm with discrete servers • Discrete Servers: each server needs its own disk space creating many redundant files/data. • Consolidated Linux for zSeries Virtual Serversshare disk space among virtual Linux images which eliminates waste, increases utilization, and has the added benefit of additional version control for your application software.

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