Recommended nPartition Configurations

On servers based on the HP sx1000 chipset or HP sx2000 chipset, the nPartition memory configuration should meet the following guidelines:

When configuring cell local memory, ensure that the amount of interleaved memory meets the guidelines given here. (All memory not specified as being cell local will be interleaved.)

Also ensure that any nPartition that has cell local memory configured runs only operating systems that support cell local memory.

Cell local memory can be configured on servers based on the HP sx1000 chipset or HP sx2000 chipset.

	CAUTION: Memory configured as cell local memory only can be used by operating systems that support it. Any memory configured as cell local memory is unusable when an nPartition runs an operating system that does not support it.

The I/O chassis containing the active core I/O also should have an operating system (OS) boot disk and method of installing or recovering the OS (such as a CD-ROM/DVD-ROM drive, network connection to an install server, or tape drive). This applies to first-generation cell-based servers and HP sx1000-based servers; it allows the nPartition to boot or recover the OS, even if only the core cell for the nPartition is functioning. On HP sx2000-based servers, every cell has core I/O.

Assign multiple core-capable cells to each nPartition.

This allows the nPartition to boot at least to the system boot environment (either BCH or EFI) if a core-capable cell fails to boot. On HP sx2000-based servers, every cell has core I/O.

(Disregard this recommendation if you are configuring multiple nPartitions in a cell-based server that has only two core-capable cells.)

The memory configuration of all cells in an nPartition should be identical to achieve best performance.

Each cell in an nPartition should have:

This avoids cell interconnect (crossbar) "hot spots" by distributing memory evenly across all of the cells in the nPartition.

The memory configuration of each cell should include a multiple of two memory ranks (first-generation cell-based HP 9000 servers) or a multiple of two memory echelons (servers based on the HP sx1000 chipset or HP sx2000 chipset) per cell.

On the first generation of cell-based HP 9000 servers, each memory rank is 4 DIMMs. If possible, install memory in sets of 8 DIMMs: 8 DIMMs or 16 DIMMs on HP rp7405/rp7410, rp8400, and Superdome (SD16000, SD32000, SD64000) cells. On Superdome cells, you also can install 24 DIMMs or 32 DIMMs per cell.

On servers based on the HP sx1000 chipset or HP sx2000 chipset, each memory echelon is 2 DIMMs. If possible, install memory in sets of 4 DIMMs: 4, 8, 12, or 16 DIMMs. On Superdome servers, you also can install 20, 24, 28, or 32 DIMMs per cell.

This provides a performance improvement by doubling the memory bandwidth of the cell, as compared to having one memory rank or memory echelon installed.

This also can provide an availability improvement, in that if one memory rank or echelon fails the cell still has at least one functional rank of memory.

(Memory rank 0, or echelon 0, must be functional for a cell to boot.)

Each nPartition should have PRI (primary), HAA (high-availability alternate), and ALT (alternate) boot paths defined and configured, and their path flags appropriately configured for your purposes.

	NOTE: Note that on HP Integrity servers, the PRI path corresponds to the first item in the EFI boot options list, the HAA path is the second item in the boot options list, and ALT is the third boot option.

The PRI and HAA paths should be configured to reference disks that are connected to different cells, if possible, with HAA being a mirror of the root volume and PRI being the root volume. ALT should be the path of a recovery or install device.

Under this configuration, if the cell to which the PRI disk is connected fails or is otherwise inactive and the cell to which the HAA disk is available, then the nPartition still can boot an operating system.

Even if the PRI and HAA devices connect to the same cell (such as on a two-cell server with two nPartitions configured), the HAA device can be used to boot an operating system should the PRI device fail.