Specifications
Table Of Contents
- Open Networking Hardware Diagnostic Guide April 2016
- About this Guide
- Installation Instructions for ONIE and the Dell OS
- ONIE Overview
- Dell DIAG OS
- Dell DiagOS Tools
- Technical Support
write Output
root@dell-diag-os:/opt/ngos/bin# ./lpctool --write --addr=102 --val=10
memtool
The memtool tests the physical memories in the system.
The memtool performs address bus and data tests that moves 1s or 0s through the bus lines to detect stuck,
missing, bridged, or other issues found during board tests. The tool also places hamming values or addresses
into memory to test and report failing bits. All tests are similar to the
memtest86 application but are available
through the CLI.
In addition, the memtool reads the types and locations of memory in the system. The memory may be
physical RAMs connected to the CPU covered by caches, or memory attached or embedded in other devices
or across busses. The tool must know the addressable location of the memory, the memory address, data bus
sizes, and any addressing constraints; for example, byte or word addressable boundaries.
The memtool allocates a memory region to tests in, which is either malloc space or opens a memory map to
the memory, and passes the pointer to access the memory.
Tests
• Address Read — Causes read transactions on the memory bus. Address read can loop for several
iterations, checking for any changes in the data between iterations. You can specify patterns on the
address bus for the bits to allow the testing for stuck address bits.
• Address Write — Creates write transactions on the memory bus. Address writes can loop for several
iterations, and works similar to the Address Read test.
• Address Walking 1 — Walks a 1 though the provided address space in memory for the available
address bits. Address Walking 1 writes the address of the cell in the location it is referencing. After it is
done writing all the locations, it walks back through and verifies that the data is correct.
• Address Walking 0 — Walks a 0 address bit through the memory area available to it. Address walking
0 writes the additive inverse of the address to the location. After writing all addressed locations, it walks
back through and verifies the locations data.
• Data Read — Reads transactions similar to the Address Read test, but focuses on the data bits. Patterns
are placed on the data bus to test for stuck data bits.
• Data Write — Places data patterns on the bus for testing the bus and looks for stuck data bits.
• Data Walking 1 — Walks a 1 through the data bits within an address location and verifies that the
values are valid prior to overwriting.
• Data Walking 0 — Walks a 0 bit through the data bits and verifies the value as it is testing.
• Data Sliding 1 — Slides a 1 through the data testing for stuck bits. By xor of each shift to the data,
when finished, the cell holds all the 1s.
• Data Sliding 0 — Slides a 0 through the data bits set to 1. By xor of each shift of the data, when
finished, the cell holds all the 1s.
• Data Pattern — Writes four different patterns to memory locations within the specified region. The
patterns are 0xFFFF, 0xFF00, 0xF0F0, 0xAAAA, 0xAA55 and 0x5555. The patterns are written as repeated
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