mirror of
https://github.com/AsahiLinux/m1n1
synced 2024-11-29 18:00:18 +00:00
337 lines
11 KiB
Python
337 lines
11 KiB
Python
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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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import atexit, sys
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from m1n1.agx import AGX
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from m1n1.agx.render import *
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from m1n1.setup import *
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from m1n1 import asm
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from m1n1.gpiola import GPIOLogicAnalyzer
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analyzer_cpu = 1
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p.pmgr_adt_clocks_enable("/arm-io/gfx-asc")
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p.pmgr_adt_clocks_enable("/arm-io/sgx")
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p.smp_start_secondaries()
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p.mmu_init_secondary(analyzer_cpu)
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iface.dev.timeout = 42
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## heater code
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if True:
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code = u.malloc(0x1000)
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util = asm.ARMAsm("""
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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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""", 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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LOOPS = 80000000000
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for idx in range(2, 8):
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print(f"bench {idx}")
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p.smp_call(idx, util.bench, LOOPS)
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agx = AGX(u)
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mon = RegMonitor(u, ascii=True, bufsize=0x8000000)
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agx.mon = mon
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sgx = agx.sgx_dev
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#mon.add(sgx.gpu_region_base, sgx.gpu_region_size, "contexts")
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#mon.add(sgx.gfx_shared_region_base, sgx.gfx_shared_region_size, "gfx-shared")
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#mon.add(sgx.gfx_handoff_base, sgx.gfx_handoff_size, "gfx-handoff")
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#mon.add(agx.initdasgx.gfx_handoff_base, sgx.gfx_handoff_size, "gfx-handoff")
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atexit.register(p.reboot)
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agx.start()
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print("==========================================")
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print("## After init")
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print("==========================================")
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mon.poll()
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agx.poll_objects()
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ctx = GPUContext(agx)
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ctx.bind(63)
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ctx0 = GPUContext(agx)
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ctx0.bind(62)
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f = GPUFrame(ctx, sys.argv[1], track=False)
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f2 = GPUFrame(ctx0, sys.argv[1], track=False)
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RENDERERS = 4
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FRAMES = 8
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renderers = []
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fault_cmdbuf = f.cmdbuf.clone()
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#fault_cmdbuf.depth_buffer = 0xdeadb000
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for i in range(RENDERERS):
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c = ctx0 if i == 0 else ctx
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r = GPURenderer(c, 8, bm_slot=0x10 + i, queue=1)
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renderers.append(r)
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for q in (r.wq_3d, r.wq_ta):
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q.info.set_prio(2)
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q.info.push()
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#for r in renderers[2:4]:
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#for q in (r.wq_3d, r.wq_ta):
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#q.info.set_prio(3)
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#q.info.push()
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#for r in renderers[4:6]:
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#for q in (r.wq_3d, r.wq_ta):
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#q.info.set_prio(0)
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#q.info.push()
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#for r in renderers[6:8]:
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#for q in (r.wq_3d, r.wq_ta):
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#q.info.set_prio(1)
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#q.info.push()
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print("==========================================")
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print("## Submitting")
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print("==========================================")
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for i, r in enumerate(renderers):
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for j in range(FRAMES):
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if (i, j) in ((1, 0), (2, 1), (3, 1)):
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r.submit(fault_cmdbuf)
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elif i == 0:
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r.submit(f2.cmdbuf)
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else:
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r.submit(f.cmdbuf)
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print("==========================================")
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print("## Submitted")
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print("==========================================")
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def t(addr):
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paddr = agx.uat.iotranslate(0, addr, 4)[0][0]
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if paddr is None:
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raise Exception(f"Failed to iotranslate {addr:#x}")
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return paddr
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regs = {
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"ta_cmds": t(agx.initdata.regionB.stats_ta.addrof("total_cmds")),
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"ta_ts": t(agx.initdata.regionB.stats_ta.stats.addrof("unk_timestamp")),
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}
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pend_base = agx.initdata.regionC.addrof("pending_stamps")
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for i in range(5):
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regs[f"st{i}_info"] = t(pend_base + i*8)
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regs[f"st{i}_val"] = t(pend_base + i*8 + 4)
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for i in range(4):
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regs[f"ta{i}_cq"] = t(agx.initdata.regionB.stats_ta.stats.queues[i].addrof("cur_cmdqueue"))
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regs.update({
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#"pwr_status": t(agx.initdata.regionB.hwdata_a.addrof("pwr_status")),
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#"pstate": t(agx.initdata.regionB.hwdata_a.addrof("cur_pstate")),
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#"temp_c": t(agx.initdata.regionB.hwdata_a.addrof("temp_c")),
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#"pwr_mw": t(agx.initdata.regionB.hwdata_a.addrof("avg_power_mw")),
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#"pwr_ts": t(agx.initdata.regionB.hwdata_a.addrof("update_ts")),
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#"unk_10": t(agx.initdata.regionB.hwdata_a.addrof("unk_10")),
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#"unk_14": t(agx.initdata.regionB.hwdata_a.addrof("unk_14")),
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#"actual_pstate": t(agx.initdata.regionB.hwdata_a.addrof("actual_pstate")),
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#"tgt_pstate": t(agx.initdata.regionB.hwdata_a.addrof("tgt_pstate")),
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#"unk_40": t(agx.initdata.regionB.hwdata_a.addrof("unk_40")),
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#"unk_44": t(agx.initdata.regionB.hwdata_a.addrof("unk_44")),
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#"unk_48": t(agx.initdata.regionB.hwdata_a.addrof("unk_48")),
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#"freq_mhz": t(agx.initdata.regionB.hwdata_a.addrof("freq_mhz")),
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#"unk_748.0": t(agx.initdata.regionB.hwdata_a.addrof("unk_748")),
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#"unk_748.1": t(agx.initdata.regionB.hwdata_a.addrof("unk_748")+4),
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#"unk_748.2": t(agx.initdata.regionB.hwdata_a.addrof("unk_748")+8),
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#"unk_748.3": t(agx.initdata.regionB.hwdata_a.addrof("unk_748")+12),
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#"use_percent": t(agx.initdata.regionB.hwdata_a.addrof("use_percent")),
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#"unk_83c": t(agx.initdata.regionB.hwdata_a.addrof("unk_83c")),
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#"freq_with_off": t(agx.initdata.regionB.hwdata_a.addrof("freq_with_off")),
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#"unk_ba0": t(agx.initdata.regionB.hwdata_a.addrof("unk_ba0")),
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#"unk_bb0": t(agx.initdata.regionB.hwdata_a.addrof("unk_bb0")),
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#"unk_c44": t(agx.initdata.regionB.hwdata_a.addrof("unk_c44")),
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#"unk_c58": t(agx.initdata.regionB.hwdata_a.addrof("unk_c58")),
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#"unk_3ca0": t(agx.initdata.regionB.hwdata_a.addrof("unk_3ca0")),
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#"unk_3ca8": t(agx.initdata.regionB.hwdata_a.addrof("unk_3ca8")),
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#"unk_3cb0": t(agx.initdata.regionB.hwdata_a.addrof("unk_3cb0")),
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#"ts_last_idle": t(agx.initdata.regionB.hwdata_a.addrof("ts_last_idle")),
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#"ts_last_poweron": t(agx.initdata.regionB.hwdata_a.addrof("ts_last_poweron")),
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#"ts_last_poweroff": t(agx.initdata.regionB.hwdata_a.addrof("ts_last_poweroff")),
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#"unk_3cd0": t(agx.initdata.regionB.hwdata_a.addrof("unk_3cd0")),
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"halt_count": t(agx.initdata.fw_status.addrof("halt_count")),
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"halted": t(agx.initdata.fw_status.addrof("halted")),
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"resume": t(agx.initdata.fw_status.addrof("resume")),
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"unk_40": t(agx.initdata.fw_status.addrof("unk_40")),
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"unk_ctr": t(agx.initdata.fw_status.addrof("unk_ctr")),
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"unk_60": t(agx.initdata.fw_status.addrof("unk_60")),
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"unk_70": t(agx.initdata.fw_status.addrof("unk_70")),
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"c_118c0": t(agx.initdata.regionC._addr + 0x118c0),
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"c_118c4": t(agx.initdata.regionC._addr + 0x118c4),
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"c_118c8": t(agx.initdata.regionC._addr + 0x118c8),
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"c_118cc": t(agx.initdata.regionC._addr + 0x118cc),
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"c_118d0": t(agx.initdata.regionC._addr + 0x118d0),
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"c_118d4": t(agx.initdata.regionC._addr + 0x118d4),
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"c_118d8": t(agx.initdata.regionC._addr + 0x118d8),
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"c_118dc": t(agx.initdata.regionC._addr + 0x118dc),
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"3d_cmds": t(agx.initdata.regionB.stats_3d.addrof("total_cmds")),
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#"3d_tvb_oflws_1": t(agx.initdata.regionB.stats_3d.stats.addrof("tvb_overflows_1")),
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#"3d_tvb_oflws_2": t(agx.initdata.regionB.stats_3d.stats.addrof("tvb_overflows_2")),
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"3d_cur_stamp_id": t(agx.initdata.regionB.stats_3d.stats.addrof("cur_stamp_id")),
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"3d_ts": t(agx.initdata.regionB.stats_3d.stats.addrof("unk_timestamp")),
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#"3d_cur_stamp_id": t(agx.initdata.regionB.stats_3d.stats.addrof("cur_stamp_id")),
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})
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for i in range(4):
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regs[f"3d{i}_cq"] = t(agx.initdata.regionB.stats_3d.stats.queues[i].addrof("cur_cmdqueue"))
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for i, r in enumerate(renderers):
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regs.update({
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f"r{i}_3d_done": t(r.wq_3d.info.pointers.addrof("gpu_doneptr")),
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#f"r{i}_3d_rptr": t(r.wq_3d.info.pointers.addrof("gpu_rptr")),
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f"r{i}_3d_busy": t(r.wq_3d.info.addrof("busy")),
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#f"r{i}_3d_blk": t(r.wq_3d.info.addrof("blocked_on_barrier")),
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#f"r{i}_3d_2c": t(r.wq_3d.info.addrof("unk_2c")),
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#f"r{i}_3d_54": t(r.wq_3d.info.addrof("unk_54")),
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f"r{i}_ta_done": t(r.wq_ta.info.pointers.addrof("gpu_doneptr")),
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#f"r{i}_ta_rptr": t(r.wq_ta.info.pointers.addrof("gpu_rptr")),
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f"r{i}_ta_busy": t(r.wq_ta.info.addrof("busy")),
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#f"r{i}_ta_blk": t(r.wq_ta.info.addrof("blocked_on_barrier")),
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#f"r{i}_ta_2c": t(r.wq_ta.info.addrof("unk_2c")),
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#f"r{i}_ta_54": t(r.wq_ta.info.addrof("unk_54")),
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f"r{i}_f{j}_ta_stamp1": t(r.stamp_ta1._addr),
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f"r{i}_ta_stamp2":t(r.stamp_ta2._addr),
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f"r{i}_f{j}_3d_stamp1": t(r.stamp_3d1._addr),
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f"r{i}_3d_stamp2":t(r.stamp_3d2._addr),
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})
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for j in range(FRAMES):
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work = r.work[j]
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regs.update({
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f"r{i}_f{j}_3d_ts": t(work.wc_3d.ts1._addr),
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f"r{i}_f{j}_ta_ts": t(work.wc_ta.ts1._addr),
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})
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div=4
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ticks = 24000000 // div * 25
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la = GPIOLogicAnalyzer(u, regs=regs, cpu=analyzer_cpu, div=div)
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print("==========================================")
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print("## Poll prior to job start")
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print("==========================================")
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#mon.poll()
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#agx.poll_objects()
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print("==========================================")
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print("## After start")
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print("==========================================")
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#agx.poll_objects()
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#mon.poll()
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print("==========================================")
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print("## Waiting")
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print("==========================================")
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print("Queues:")
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for i, r in enumerate(renderers):
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print(f" Renderer {i}")
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print(f" TA: {r.wq_ta.info._addr:#x} (stamp {r.work[0].ev_ta.id})")
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#print(r.wq_ta.info)
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print(f" 3D: {r.wq_3d.info._addr:#x} (stamp {r.work[0].ev_3d.id})")
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#print(r.wq_3d.info)
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print("==========================================")
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print("## Run")
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print("==========================================")
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la.start(ticks, bufsize=0x8000000)
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try:
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for r in renderers[:RENDERERS]:
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r.run()
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for r in renderers[:RENDERERS]:
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while not r.ev_3d.fired:
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agx.asc.work()
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agx.poll_channels()
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print("==========================================")
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agx.poll_objects()
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mon.poll()
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r.wait()
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#agx.poll_objects()
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#print("==========================================")
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#print("## Stop ASC")
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#print("==========================================")
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#agx.asc.stop()
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##time.sleep(0.1)
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##agx.poll_objects()
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#print("==========================================")
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#print("## Start ASC")
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#print("==========================================")
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#agx.asc.start()
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##agx.poll_objects()
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#print("==========================================")
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#print("## Run 2")
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#print("==========================================")
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#for r in renderers[RENDERERS//2:]:
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#r.run()
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#for r in renderers[RENDERERS//2:]:
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#while not r.ev_3d.fired:
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#agx.asc.work()
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#agx.poll_channels()
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#print("==========================================")
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#r.wait()
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#agx.poll_objects()
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#mon.poll()
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finally:
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#agx.poll_objects()
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#mon.poll()
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la.complete()
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la.show()
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time.sleep(2)
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