Typical hardware for the equipment tiers and operating systems is listed in Typical hardware for the equipment tiers.

Table 1. Typical hardware for the equipment tiers

Operating system	Platform equipment tier
	Small (1–2 low end CPUs, 2 GB RAM)	Medium (2 CPUs, 4 GB RAM)	Large (2 CPUs, 4 GB RAM)	Extra large(4 CPUs, 4–8 GB RAM)
Red Hat Enterprise Linux	Any vendor, 1-2 Xeon 2.8 GHz	Any vendor, 2 Xeon 2.8 GHz	Any vendor, 2 Xeon 2.8 GHz	Any vendor, 4 Xeon 3.0 GHz
Solaris	UltraSPARC-T1 (T2000)	UltraS­PARC-T2 (T5220)	SPARC64 VII (M4000)	SPARC64 VII (M4000)

It is recommended that you work with Sun Microsystems, Inc. to determine models that meet or exceed these requirements in addressing your business needs.

CPUs may have multiple cores and cores may have multiple hardware threads. Cores and threads may share CPU resources with other cores and threads. This makes assessment of CPU capacity difficult. VMware recommends using the benchmark published by SPEC for assessing expected relative CPU performance. CPU2006 is the current version of the CPU component benchmark suite from SPEC.

The results are broken out by reported metric for:

• CPU Speed: You can access this benchmark from:

  http://www.spec.org/cpu2006/results/cint2006.html

• CPU Throughput: You can access this benchmark from:

  http://www.spec.org/cpu2006/results/rint2006.html

  While cint runs one copy of the benchmark, rint runs as many copies as there are threads in the machine.

  CPU speed and the number of CPUs available affect performance. You can get a sense of the expected performance by comparing the CPU speed directly to the speed ratings of the CPUs on which the benchmark is based. The current strategy for assessing the number of effective CPUs in a machine is to divide the throughput rating by the speed rating. In general, our software benefits more from faster CPU speed, than the comparable addition of more CPUs. Thus, it is preferred to have 1 CPU rated at 20, than 2 rated at 10.

  If you are installing more than one product, then your system must meet the products total memory and data disk space requirements.

  Required disk space for the Service Assurance Manager Server lists disk space requirements for installing the Service Assurance Manager Server.

Table 2. Required disk space for the Service Assurance Manager Server

Platform	Disk space
Solaris 9 and 10	730 MB
Red Hat Enterprise Linux AS 4 and 5	475 MB

Required disk space for the Service Assurance Manager console lists disk space requirements for installing the Service Assurance Manager console.

Table 3. Required disk space for the Service Assurance Manager console

Platform	Disk space
Solaris 10	485 MB
Red Hat Enterprise Linux AS 5	365 MB

CPU, memory, data disk space requirements lists minimum requirements for CPUs, memory, and data disk space that is used by the software for writable files such as logs, repository files, and output files.

Table 4. CPU, memory, data disk space requirements

VMware Smart Assurance product	CPUs	Memory (RAM)	Data disk space
Service Assurance Manager	2	512 MB	100 MB each
Global Console	1	256 MB	Not applicable
Global Console, Web Console, and Business Dashboard	1	256 MB	150 MB
VMware Smart Assurance Service Assurance Manager Adapter Platform	1	512 MB	100 MB each
Syslog Adapter	1	256 MB	50 MB each
SNMP Trap Adapter	1	256 MB	50 MB each
VMware Smart Assurance Adapter for UIM/O	1	256 MB	50 MB
XML Adapter	1	256 MB	See the following Note.

If you are installing multiple products, then your system must meet the products’ total memory and data disk space requirements. Required disk space for the Service Assurance Manager Server defines required disk space and CPU, memory, data disk space requirements lists CPU, memory, and data disk space requirements.