| .. _imc: |
| |
| OPAL/Skiboot In-Memory Collection (IMC) interface Documentation |
| =============================================================== |
| |
| Overview: |
| --------- |
| |
| In-Memory-Collection (IMC) is performance monitoring infrastrcuture |
| for counters that (once started) can be read from memory at any time by |
| an operating system. Such counters include those for the Nest and Core |
| units, enabling continuous monitoring of resource utilisation on the chip. |
| |
| The API is agnostic as to how these counters are implemented. For the |
| Nest units, they're implemented by having microcode in an on-chip |
| microcontroller and for core units, they are implemented as part of core logic |
| to gather data and periodically write it to the memory locations. |
| |
| Nest (On-Chip, Off-Core) unit: |
| ------------------------------ |
| |
| Nest units have dedicated hardware counters which can be programmed |
| to monitor various chip resources such as memory bandwidth, |
| xlink bandwidth, alink bandwidth, PCI, NVlink and so on. These Nest |
| unit PMU counters can be programmed in-band via scom. But alternatively, |
| programming of these counters and periodically moving the counter data |
| to memory are offloaded to a hardware engine part of OCC (On-Chip Controller). |
| |
| Microcode, starts to run at system boot in OCC complex, initialize these |
| Nest unit PMUs and periodically accumulate the nest pmu counter values |
| to memory. List of supported events by the microcode is packages as a DTS |
| and stored in IMA_CATALOG partition. |
| |
| Core unit: |
| ---------- |
| |
| Core IMC PMU counters are handled in the core-imc unit. Each core has |
| 4 Core Performance Monitoring Counters (CPMCs) which are used by Core-IMC logic. |
| Two of these are dedicated to count core cycles and instructions. |
| The 2 remaining CPMCs have to multiplex 128 events each. |
| |
| Core IMC hardware does not support interrupts and it peridocially (based on |
| sampling duration) fetches the counter data and accumulate to main memory. |
| Memory to accumulate counter data are refered from "PDBAR" (per-core scom) |
| and "LDBAR" per-thread spr. |
| |
| Trace mode of IMC: |
| ------------------ |
| |
| POWER9 support two modes for IMC which are the Accumulation mode and |
| Trace mode. In Accumulation mode event counts are accumulated in system |
| memory. Hypervisor/kernel then reads the posted counts periodically, or |
| when requested. In IMC Trace mode, the 64 bit trace scom value is initialized |
| with the event information. The CPMC*SEL and CPMC_LOAD in the trace scom, specifies |
| the event to be monitored and the sampling duration. On each overflow in the |
| CPMC*SEL, hardware snapshots the program counter along with event counts |
| and writes into memory pointed by LDBAR. LDBAR has bits to indicate whether |
| hardware is configured for accumulation or trace mode. |
| Currently the event monitored for trace-mode is fixed as cycle. |
| |
| PMI interrupt handling is avoided, since IMC trace mode snapshots the |
| program counter and update to the memory. And this also provide a way for |
| the operating system to do instruction sampling in real time without |
| PMI(Performance Monitoring Interrupts) processing overhead. |
| |
| **Example:** |
| |
| Performance data using 'perf top' with and without trace-imc event: |
| |
| |
| *PMI interrupts count when `perf top` command is executed without trace-imc event.* |
| :: |
| |
| # cat /proc/interrupts (a snippet from the output) |
| 9944 1072 804 804 1644 804 1306 |
| 804 804 804 804 804 804 804 |
| 804 804 1961 1602 804 804 1258 |
| [-----------------------------------------------------------------] |
| 803 803 803 803 803 803 803 |
| 803 803 803 803 804 804 804 |
| 804 804 804 804 804 804 803 |
| 803 803 803 803 803 1306 803 |
| 803 Performance monitoring interrupts |
| |
| |
| *PMI interrupts count when `perf top` command executed with trace-imc event |
| (executed right after 'perf top' without trace-imc event).* |
| :: |
| |
| # perf top -e trace_imc/trace_cycles/ |
| 12.50% [kernel] [k] arch_cpu_idle |
| 11.81% [kernel] [k] __next_timer_interrupt |
| 11.22% [kernel] [k] rcu_idle_enter |
| 10.25% [kernel] [k] find_next_bit |
| 7.91% [kernel] [k] do_idle |
| 7.69% [kernel] [k] rcu_dynticks_eqs_exit |
| 5.20% [kernel] [k] tick_nohz_idle_stop_tick |
| [-----------------------] |
| |
| # cat /proc/interrupts (a snippet from the output) |
| |
| 9944 1072 804 804 1644 804 1306 |
| 804 804 804 804 804 804 804 |
| 804 804 1961 1602 804 804 1258 |
| [-----------------------------------------------------------------] |
| 803 803 803 803 803 803 803 |
| 803 803 803 804 804 804 804 |
| 804 804 804 804 804 804 803 |
| 803 803 803 803 803 1306 803 |
| 803 Performance monitoring interrupts |
| |
| Here the PMI interrupts count remains the same. |
| |
| OPAL APIs: |
| ---------- |
| |
| The OPAL API is simple: a call to init a counter type, and calls to |
| start and stop collection. The memory locations are described in the |
| device tree. |
| |
| See :ref:`opal-imc-counters` and :ref:`device-tree/imc` |
