1. Hardware & the Machine room Week 5 – Lecture 1

2. What is behind the wall plug for your workstation? Today we will look at the platform on which our Information System stands –LAN hardware –Server hardware –The machine room

3. What do we need? Reliability Performance Physical security

4. WAN Hubs Switch Router Servers

5. The Internet is a network of networks LAN WAN

6. So how do we get the message? Data link & Physical layers TCP/IP Network & Transport Layers Middleware Presentation & Session Layers Process On Host A Process on Host B Application layer

7. Local Area Network Hubs –Physical layer - dumb –Propagates on all channels Switches –Data link Layer – MAC address level –Put message out on 1 channel –Fast, more intelligent, store & forward –Ethernet, ATM, FDDI etc –Collision zones Router –Network Layer device – IP level –Edge of network –Firewalls Hubs Switch Router

8. Server hardware CPU Memory (Primary Storage) Communications Interface Disk (Secondary Storage) CPU

9. Servers??? Mainframes – IBMz900 zOS Mid-range – Sun Fire E25K Solaris/Unix Intel based – HP Proliant Windows 2000NT or Linux

10. Scalability As demand on the server increases, how can it be upgraded to handle the increased load? Main components are – –Processor speed –Number of processors –Memory size and access speed –Data storage capacity and speed

11. Constraints on scalability Operating system Number of processors permitted by the architecture (e.g. Compaq DL580 has max of 4, Sun E10000 has max of 64) Memory access often limits effective utilisation of processors – increase in throughput is not linear

12. Number of processors A key issue in scalability Sun’s Solaris can now support up to 128 but architecture of Sun E10000 has 64 processor limit Until recently Windows NT/2000 NT could support 8 but now supports up to 32 and 64GB of memory. With the new IA64 processor the Windows/IA architecture will put performance as well as price pressure on the Unix/RISC based systems – within 2/3 years Unix continues to challenge the Mainframe market. They are also introducing automated management features

13. Windows NT/2000 & IA64 IA 64 not designed to improve performance of IA 32 code Code has to be written to take advantage of it Major hardware limitation is probably now the PCI bus that connects the processors and memory to storage and controllers and expansion cards.

14. Multi processor servers Usually under the control of the one copy of the operating system But some high end machines (Sun E10000) have independent domains with each domain having its own copy of the operating system. Like two or more independent machines in the one box.

15. Number of processors is not the only issue. Memory management is critical Single processor Symmetric multi-processor – SMP – shared bus Symmetric multi-processor – SMP – cross bar NUMA Loosely coupled – MMP Clusters

16. SMP – shared bus is the most common But the bus provides a bottle neck to shared memory pool Memory access speed then declines and this prevents linear scalability TPC benchmarks show that often manufacturers get best performance at around 50% of maximum number of processors

17. SMP – Shared bus CPU Memory pool I/O Compaq DL580

18. SMP – Cross bar CPU

19. Non Uniform Memory Access CPU Memory I/O Interface CPU Memory I/O Interface Cross Bar HP Super Dome & Sun E10000

20. Clusters Share nothing - Failover Share disk – requires distributed locking Share everything – slower than the bus of an SMP machine LAN High speed Interconnect

21. Clustering gives Scalability – workload can be distributed Availability – when one goes down the other takes over System management – managed as a single resource – particularly disk

22. Disk performance Capacity continues to double each year Speed made up of three elements –Rotational latency –Seek time –Transfer rate

23. Storage architectures Two emerging storage architectures –SAN – Storage Area Network –NAS – Network Attached Storage SAN more closely coupled NAS network orientated – higher latency Semi independent for use with high end servers High performance, large capacity, high availability, data protection, management and back-up

24. Network Attached Storage WEBApplicationDatabase NAS Server

25. Storage Area Networks WEBApplicationDatabase Fibre channel File Server

26. Machine room environment Air conditioning Fire protection Reliable power Physical security