2021-09-18 17:02:59 +00:00
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#!/usr/bin/env python3
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# SPDX-License-Identifier: MIT
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import sys, pathlib, time
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sys.path.append(str(pathlib.Path(__file__).resolve().parents[1]))
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from m1n1.setup import *
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from m1n1 import asm
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p.smp_start_secondaries()
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tfreq = u.mrs(CNTFRQ_EL0)
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TEST_CPUS = [1, 4]
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CLUSTER_PSTATE = 0x20020
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2022-06-27 16:39:51 +00:00
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CLUSTER_STATUS = 0x20050
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2023-02-06 22:16:22 +00:00
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chip_id = u.adt["/chosen"].chip_id
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2023-04-09 11:57:53 +00:00
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if chip_id in (0x8103, 0x6000, 0x6001, 0x6002):
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2022-06-27 16:39:51 +00:00
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CREG = [
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0x210e00000,
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0x211e00000,
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]
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MAX_PSTATE = [5, 15]
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2021-09-18 17:02:59 +00:00
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2023-04-09 11:57:53 +00:00
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elif chip_id in (0x8121, 0x6020, 0x6021, 0x6022):
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2022-06-27 16:39:51 +00:00
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CREG = [
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0x210e00000,
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0x211e00000,
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]
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2021-09-18 17:02:59 +00:00
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2023-04-18 12:44:55 +00:00
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if u.adt["/chosen"].target_type == "J416c":
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2023-04-09 11:57:53 +00:00
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MAX_PSTATE = [7, 19]
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2023-04-18 12:44:55 +00:00
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else:
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MAX_PSTATE = [7, 17]
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2021-09-18 17:02:59 +00:00
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code = u.malloc(0x1000)
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util = asm.ARMAsm(f"""
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bench:
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mrs x1, CNTPCT_EL0
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1:
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sub x0, x0, #1
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cbnz x0, 1b
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mrs x2, CNTPCT_EL0
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sub x0, x2, x1
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ret
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signal_and_write:
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sev
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mrs x2, CNTPCT_EL0
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add x2, x2, #0x800
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1:
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mrs x3, CNTPCT_EL0
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sub x4, x3, x2
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cbnz x4, 1b
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str x1, [x0]
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mov x0, x3
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ret
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timelog:
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mrs x2, s3_1_c15_c0_0 /* SYS_IMP_APL_PMCR0 */
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orr x2, x2, #1
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msr s3_1_c15_c0_0, x2
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mov x2, #0xffffffffffffffff
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msr s3_1_c15_c1_0, x2
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isb
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wfe
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1:
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mrs x2, CNTPCT_EL0
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mrs x3, s3_2_c15_c0_0
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isb
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stp x2, x3, [x0], #16
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mov x4, #0x40
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2:
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sub x4, x4, #1
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cbnz x4, 2b
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sub x1, x1, #1
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cbnz x1, 1b
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2021-10-18 08:13:41 +00:00
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ret
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2021-09-18 17:02:59 +00:00
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""", code)
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iface.writemem(code, util.data)
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p.dc_cvau(code, len(util.data))
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p.ic_ivau(code, len(util.data))
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def bench_cpu(idx, loops=10000000):
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if idx == 0:
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elapsed = p.call(util.bench, loops) / tfreq
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else:
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elapsed = p.smp_call_sync(idx, util.bench, loops) / tfreq
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if elapsed == 0:
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return 0
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mhz = (loops / elapsed) / 1000000
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return mhz
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def set_pstate(cluster, pstate):
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2023-04-18 12:44:55 +00:00
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p.mask64(CREG[cluster] + CLUSTER_PSTATE, 0x1f01f, (1<<25) | pstate)
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2021-09-18 17:02:59 +00:00
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print()
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LOG_ITERS = 10000
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logbuf = u.malloc(LOG_ITERS * 16)
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def bench_latency(cluster, cpu, from_pstate, to_pstate, verbose=False):
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set_pstate(cluster, from_pstate)
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bench_cpu(cpu)
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p.smp_call(cpu, util.timelog, logbuf, LOG_ITERS)
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2023-04-18 12:44:55 +00:00
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psreg = (p.read64(CREG[cluster] + CLUSTER_PSTATE) & ~0x1f01f) | (1<<25) | to_pstate
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2021-09-18 17:02:59 +00:00
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tval = p.call(util.signal_and_write, CREG[cluster] + CLUSTER_PSTATE, psreg)
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p.smp_wait(cpu)
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logdata = iface.readmem(logbuf, LOG_ITERS * 16)
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lts, lcyc = None, None
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log = []
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for i in range(LOG_ITERS):
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ts, cyc = struct.unpack("<QQ", logdata [i*16:i*16+16])
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log.append((ts, cyc))
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off = 256
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ts_0, cyc_0 = log[off]
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ts_e, cyc_e = log[-1]
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f_init = None
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f_end = None
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lts, lcyc = ts_0, cyc_0
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inc = to_pstate > from_pstate
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blip = 0
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cnt = dts_sum = 0
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for i in range(off, len(log)):
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ts, cyc = log[i]
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dts = ts - lts
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dcyc = cyc - lcyc
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cnt += 1
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dts_sum += dts
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blip = max(blip, dts)
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if f_init is None and ts > tval:
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tidx = i
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f_init = (lcyc - cyc_0) / (lts - ts_0) * tfreq / 1000000
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dts_init = dts_sum / cnt
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if f_end is None and ts > (tval + ts_e) / 2:
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f_end = (cyc_e - cyc) / (ts_e - ts) * tfreq / 1000000
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cnt = dts_sum = 0
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#if lts is not None:
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#print(f"{i}: {ts}: {cyc} ({ts-lts}: {cyc-lcyc})")
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#else:
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#print(f"{i}: {ts}: {cyc}")
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lts, lcyc = ts, cyc
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dts_end = dts_sum / cnt
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window = 32
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if verbose:
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print(f"Triggered at {tval}")
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thresh = 2/ (1/f_init + 1/f_end)
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for i in range(tidx, LOG_ITERS - window - 1):
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ts0, cyc0 = log[i - window]
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ts1, cyc1 = log[i + window]
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f = (cyc1 - cyc0) / (ts1 - ts0) * tfreq / 1000000
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if inc and (f > thresh) or ((not inc) and f < thresh):
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tts = log[i][0]
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tidx = i
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if verbose:
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print(f"Frequency transition at #{i} {tts}")
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break
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if verbose:
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print(f"Initial frequency: {f_init:.2f}")
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print(f"Final frequency: {f_end:.2f}")
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print(f"Threshold: {thresh:.2f}")
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for i in range(max(window, tidx - 10 * window), tidx + 10 * window):
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ts0, cyc0 = log[i - window]
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ts1, cyc1 = log[i + window]
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lts, lcyc = log[i - 1]
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ts, cyc = log[i]
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f = (cyc1 - cyc0) / (ts1 - ts0) * tfreq / 1000000
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print(f"{i}: {ts}: {cyc} ({ts-lts}: {cyc-lcyc}): {f:.2f}")
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blip -= min(dts_init, dts_end)
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return (tts - tval) / tfreq * 1000000000, blip / tfreq * 1000000000
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for cluster, creg in enumerate(CREG):
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cpu = TEST_CPUS[cluster]
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freqs = []
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print(f"#### Cluster {cluster} ####")
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print(" P-States:")
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print(" ", end="")
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for pstate in range(MAX_PSTATE[cluster] + 1):
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set_pstate(cluster, pstate)
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freq = int(round(bench_cpu(cpu)))
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freqs.append(freq)
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print(f"{pstate}:{freq}MHz", end=" ")
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print()
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print()
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print(" To-> |", end="")
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for to_pstate in range(1, MAX_PSTATE[cluster] + 1):
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print(f" {freqs[to_pstate]:7d} |", end="")
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print()
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print(" From |", end="")
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for to_pstate in range(1, MAX_PSTATE[cluster] + 1):
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print(f"---------+", end="")
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print()
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maxblip = 0
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for from_pstate in range(1, MAX_PSTATE[cluster] + 1):
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print(f" {freqs[from_pstate]:4d} |", end="")
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for to_pstate in range(1, MAX_PSTATE[cluster] + 1):
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if from_pstate == to_pstate:
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print(f" ******* |", end="")
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continue
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lat, blip = bench_latency(cluster, cpu, from_pstate, to_pstate)
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print(f" {lat:7.0f} |", end="")
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maxblip = max(maxblip, blip)
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print()
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print()
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print(f"Maximum execution latency spike: {maxblip:.0f} ns")
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print()
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print()
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#bench_latency(1, TEST_CPUS[1], 15, 14, True)
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