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Topic: Antminer S9 Volt Rocket Ship firmware mod! ~Time to Max Out Your Bitmain PSU~ - page 22. (Read 32424 times)

jr. member
Activity: 71
Merit: 2
Hi taserz,

So I noticed on your Github the bmminer880New entry. Is this going to be something I should wait for? Because I am about to start playing with my machines.

Best,

MrMaxwell
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
I am trying to build the firmware but it is only 40mb... The real firmware is 60mb... Anyone got any ideas it won't run. I am working on a firmware flash verse all the manual edits.

This is the kernel log:

Code:
[    0.000000] Booting Linux on physical CPU 0x0
[    0.000000] Linux version 3.14.0-xilinx-gb190cb0-dirty (lzq@armdev2) (gcc version 4.8.3 20140320 (prerelease) (Sourcery CodeBench Lite 2014.05-23) ) #57 SMP PREEMPT Fri Dec 9 14:49:22 CST 2016
[    0.000000] CPU: ARMv7 Processor [413fc090] revision 0 (ARMv7), cr=18c5387d
[    0.000000] CPU: PIPT / VIPT nonaliasing data cache, VIPT aliasing instruction cache
[    0.000000] Machine model: Xilinx Zynq
[    0.000000] cma: CMA: reserved 128 MiB at 16800000
[    0.000000] Memory policy: Data cache writealloc
[    0.000000] On node 0 totalpages: 126976
[    0.000000] free_area_init_node: node 0, pgdat c0740a40, node_mem_map debd8000
[    0.000000]   Normal zone: 992 pages used for memmap
[    0.000000]   Normal zone: 0 pages reserved
[    0.000000]   Normal zone: 126976 pages, LIFO batch:31
[    0.000000] PERCPU: Embedded 8 pages/cpu @debc1000 s9088 r8192 d15488 u32768
[    0.000000] pcpu-alloc: s9088 r8192 d15488 u32768 alloc=8*4096
[    0.000000] pcpu-alloc: [0] 0 [0] 1
[    0.000000] Built 1 zonelists in Zone order, mobility grouping on.  Total pages: 125984
[    0.000000] Kernel command line: noinitrd mem=496M console=ttyPS0,115200 root=ubi0:rootfs ubi.mtd=1 rootfstype=ubifs rw rootwait
[    0.000000] PID hash table entries: 2048 (order: 1, 8192 bytes)
[    0.000000] Dentry cache hash table entries: 65536 (order: 6, 262144 bytes)
[    0.000000] Inode-cache hash table entries: 32768 (order: 5, 131072 bytes)
[    0.000000] Memory: 364356K/507904K available (5032K kernel code, 283K rwdata, 1916K rodata, 204K init, 258K bss, 143548K reserved, 0K highmem)
[    0.000000] Virtual kernel memory layout:
[    0.000000]     vector  : 0xffff0000 - 0xffff1000   (   4 kB)
[    0.000000]     fixmap  : 0xfff00000 - 0xfffe0000   ( 896 kB)
[    0.000000]     vmalloc : 0xdf800000 - 0xff000000   ( 504 MB)
[    0.000000]     lowmem  : 0xc0000000 - 0xdf000000   ( 496 MB)
[    0.000000]     pkmap   : 0xbfe00000 - 0xc0000000   (   2 MB)
[    0.000000]     modules : 0xbf000000 - 0xbfe00000   (  14 MB)
[    0.000000]       .text : 0xc0008000 - 0xc06d1374   (6949 kB)
[    0.000000]       .init : 0xc06d2000 - 0xc0705380   ( 205 kB)
[    0.000000]       .data : 0xc0706000 - 0xc074cf78   ( 284 kB)
[    0.000000]        .bss : 0xc074cf84 - 0xc078d9fc   ( 259 kB)
[    0.000000] Preemptible hierarchical RCU implementation.
[    0.000000] Dump stacks of tasks blocking RCU-preempt GP.
[    0.000000] RCU restricting CPUs from NR_CPUS=4 to nr_cpu_ids=2.
[    0.000000] RCU: Adjusting geometry for rcu_fanout_leaf=16, nr_cpu_ids=2
[    0.000000] NR_IRQS:16 nr_irqs:16 16
[    0.000000] ps7-slcr mapped to df802000
[    0.000000] zynq_clock_init: clkc starts at df802100
[    0.000000] Zynq clock init
[    0.000014] sched_clock: 64 bits at 333MHz, resolution 3ns, wraps every 3298534883328ns
[    0.000304] ps7-ttc #0 at df804000, irq=43
[    0.000613] Console: colour dummy device 80x30
[    0.000645] Calibrating delay loop... 1325.46 BogoMIPS (lpj=6627328)
[    0.040205] pid_max: default: 32768 minimum: 301
[    0.040428] Mount-cache hash table entries: 1024 (order: 0, 4096 bytes)
[    0.040447] Mountpoint-cache hash table entries: 1024 (order: 0, 4096 bytes)
[    0.042635] CPU: Testing write buffer coherency: ok
[    0.042984] CPU0: thread -1, cpu 0, socket 0, mpidr 80000000
[    0.043045] Setting up static identity map for 0x4c4af8 - 0x4c4b50
[    0.043269] L310 cache controller enabled
[    0.043289] l2x0: 8 ways, CACHE_ID 0x410000c8, AUX_CTRL 0x72760000, Cache size: 512 kB
[    0.121034] CPU1: Booted secondary processor
[    0.210224] CPU1: thread -1, cpu 1, socket 0, mpidr 80000001
[    0.210356] Brought up 2 CPUs
[    0.210376] SMP: Total of 2 processors activated.
[    0.210384] CPU: All CPU(s) started in SVC mode.
[    0.211058] devtmpfs: initialized
[    0.213494] VFP support v0.3: implementor 41 architecture 3 part 30 variant 9 rev 4
[    0.214737] regulator-dummy: no parameters
[    0.223272] NET: Registered protocol family 16
[    0.225586] DMA: preallocated 256 KiB pool for atomic coherent allocations
[    0.227907] cpuidle: using governor ladder
[    0.227921] cpuidle: using governor menu
[    0.235409] syscon f8000000.ps7-slcr: regmap [mem 0xf8000000-0xf8000fff] registered
[    0.236944] hw-breakpoint: found 5 (+1 reserved) breakpoint and 1 watchpoint registers.
[    0.236959] hw-breakpoint: maximum watchpoint size is 4 bytes.
[    0.237077] zynq-ocm f800c000.ps7-ocmc: ZYNQ OCM pool: 256 KiB @ 0xdf880000
[    0.259338] bio: create slab at 0
[    0.260907] vgaarb: loaded
[    0.261684] SCSI subsystem initialized
[    0.262566] usbcore: registered new interface driver usbfs
[    0.262743] usbcore: registered new interface driver hub
[    0.262976] usbcore: registered new device driver usb
[    0.263518] media: Linux media interface: v0.10
[    0.263678] Linux video capture interface: v2.00
[    0.263921] pps_core: LinuxPPS API ver. 1 registered
[    0.263933] pps_core: Software ver. 5.3.6 - Copyright 2005-2007 Rodolfo Giometti
[    0.264057] PTP clock support registered
[    0.264416] EDAC MC: Ver: 3.0.0
[    0.265493] Advanced Linux Sound Architecture Driver Initialized.
[    0.268486] DMA-API: preallocated 4096 debug entries
[    0.268501] DMA-API: debugging enabled by kernel config
[    0.268589] Switched to clocksource arm_global_timer
[    0.289916] NET: Registered protocol family 2
[    0.290589] TCP established hash table entries: 4096 (order: 2, 16384 bytes)
[    0.290646] TCP bind hash table entries: 4096 (order: 3, 32768 bytes)
[    0.290731] TCP: Hash tables configured (established 4096 bind 4096)
[    0.290780] TCP: reno registered
[    0.290798] UDP hash table entries: 256 (order: 1, 8192 bytes)
[    0.290830] UDP-Lite hash table entries: 256 (order: 1, 8192 bytes)
[    0.291086] NET: Registered protocol family 1
[    0.291402] RPC: Registered named UNIX socket transport module.
[    0.291415] RPC: Registered udp transport module.
[    0.291424] RPC: Registered tcp transport module.
[    0.291432] RPC: Registered tcp NFSv4.1 backchannel transport module.
[    0.291445] PCI: CLS 0 bytes, default 64
[    0.291900] hw perfevents: enabled with ARMv7 Cortex-A9 PMU driver, 7 counters available
[    0.293942] futex hash table entries: 512 (order: 3, 32768 bytes)
[    0.296144] jffs2: version 2.2. (NAND) © 2001-2006 Red Hat, Inc.
[    0.296335] msgmni has been set to 967
[    0.297141] io scheduler noop registered
[    0.297155] io scheduler deadline registered
[    0.297194] io scheduler cfq registered (default)
[    0.309474] dma-pl330 f8003000.ps7-dma: Loaded driver for PL330 DMAC-2364208
[    0.309495] dma-pl330 f8003000.ps7-dma: DBUFF-128x8bytes Num_Chans-8 Num_Peri-4 Num_Events-16
[    0.434807] e0001000.serial: ttyPS0 at MMIO 0xe0001000 (irq = 82, base_baud = 3124999) is a xuartps
[    1.002104] console [ttyPS0] enabled
[    1.006411] xdevcfg f8007000.ps7-dev-cfg: ioremap 0xf8007000 to df866000
[    1.014067] [drm] Initialized drm 1.1.0 20060810
[    1.031369] brd: module loaded
[    1.040834] loop: module loaded
[    1.050515] e1000e: Intel(R) PRO/1000 Network Driver - 2.3.2-k
[    1.056266] e1000e: Copyright(c) 1999 - 2013 Intel Corporation.
[    1.064144] libphy: XEMACPS mii bus: probed
[    1.068515] ------------- phy_id = 0x3625e62
[    1.073486] xemacps e000b000.ps7-ethernet: pdev->id -1, baseaddr 0xe000b000, irq 54
[    1.082136] ehci_hcd: USB 2.0 'Enhanced' Host Controller (EHCI) Driver
[    1.088990] ehci-pci: EHCI PCI platform driver
[    1.096222] zynq-dr e0002000.ps7-usb: Unable to init USB phy, missing?
[    1.103094] usbcore: registered new interface driver usb-storage
[    1.109998] mousedev: PS/2 mouse device common for all mice
[    1.116102] i2c /dev entries driver
[    1.123095] zynq-edac f8006000.ps7-ddrc: ecc not enabled
[    1.128626] cpufreq_cpu0: failed to get cpu0 regulator: -19
[    1.134530] Xilinx Zynq CpuIdle Driver started
[    1.139403] sdhci: Secure Digital Host Controller Interface driver
[    1.145495] sdhci: Copyright(c) Pierre Ossman
[    1.149910] sdhci-pltfm: SDHCI platform and OF driver helper
[    1.156656] mmc0: no vqmmc regulator found
[    1.160699] mmc0: no vmmc regulator found
[    1.198608] mmc0: SDHCI controller on e0100000.ps7-sdio [e0100000.ps7-sdio] using ADMA
[    1.207302] usbcore: registered new interface driver usbhid
[    1.212817] usbhid: USB HID core driver
[    1.217540] nand: device found, Manufacturer ID: 0x2c, Chip ID: 0xda
[    1.223835] nand: Micron MT29F2G08ABAEAWP
[    1.227802] nand: 256MiB, SLC, page size: 2048, OOB size: 64
[    1.233744] Bad block table found at page 131008, version 0x01
[    1.239969] Bad block table found at page 130944, version 0x01
[    1.246025] 3 ofpart partitions found on MTD device pl353-nand
[    1.251809] Creating 3 MTD partitions on "pl353-nand":
[    1.256901] 0x000000000000-0x000002000000 : "BOOT.bin-env-dts-kernel"
[    1.264978] 0x000002000000-0x00000b000000 : "angstram-rootfs"
[    1.272310] 0x00000b000000-0x000010000000 : "upgrade-rootfs"
[    1.281313] TCP: cubic registered
[    1.284545] NET: Registered protocol family 17
[    1.289275] Registering SWP/SWPB emulation handler
[    1.295198] regulator-dummy: disabling
[    1.299597] UBI: attaching mtd1 to ubi0
[    1.674740] UBI: scanning is finished
[    1.686654] UBI: attached mtd1 (name "angstram-rootfs", size 144 MiB) to ubi0
[    1.693736] UBI: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
[    1.700498] UBI: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
[    1.707163] UBI: VID header offset: 2048 (aligned 2048), data offset: 4096
[    1.714041] UBI: good PEBs: 1152, bad PEBs: 0, corrupted PEBs: 0
[    1.720021] UBI: user volume: 1, internal volumes: 1, max. volumes count: 128
[    1.727129] UBI: max/mean erase counter: 1/0, WL threshold: 4096, image sequence number: 227368296
[    1.736084] UBI: available PEBs: 0, total reserved PEBs: 1152, PEBs reserved for bad PEB handling: 40
[    1.745302] UBI: background thread "ubi_bgt0d" started, PID 1080
[    1.745307] drivers/rtc/hctosys.c: unable to open rtc device (rtc0)
[    1.749420] ALSA device list:
[    1.749424]   No soundcards found.
[    1.765844] UBIFS: background thread "ubifs_bgt0_0" started, PID 1082
[    1.912100] UBIFS: mounted UBI device 0, volume 0, name "rootfs"
[    1.918028] UBIFS: LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
[    1.927160] UBIFS: FS size: 128626688 bytes (122 MiB, 1013 LEBs), journal size 9023488 bytes (8 MiB, 72 LEBs)
[    1.937044] UBIFS: reserved for root: 0 bytes (0 KiB)
[    1.942083] UBIFS: media format: w4/r0 (latest is w4/r0), UUID A1445D82-E6B9-445B-AD23-685FEDA102F2, small LPT model
[    1.960857] VFS: Mounted root (ubifs filesystem) on device 0:11.
[    1.974068] devtmpfs: mounted
[    1.977180] Freeing unused kernel memory: 204K (c06d2000 - c0705000)
[    3.070199] random: dd urandom read with 0 bits of entropy available
[    3.678655]
[    3.678655] bcm54xx_config_init
[    4.288600]
[    4.288600] bcm54xx_config_init
[    7.289471] xemacps e000b000.ps7-ethernet: Set clk to 24999999 Hz
[    7.295561] xemacps e000b000.ps7-ethernet: link up (100/FULL)
[   36.248600]
[   36.248600] bcm54xx_config_init
[   36.878602]
[   36.878602] bcm54xx_config_init
[   39.879473] xemacps e000b000.ps7-ethernet: Set clk to 24999999 Hz
[   39.885493] xemacps e000b000.ps7-ethernet: link up (100/FULL)
[  389.699317] random: nonblocking pool is initialized

Figure someone here might be able to tell from the kernal log since I think whatever it is is obvious.
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
@zeus

I am going to try to compile one for the T9+ tonight.
newbie
Activity: 9
Merit: 0
Can you do me a favor and post a copy of your kernal log of you t9+ running so I can see what it's factory settings are.

Here we go mate

Code:
[    0.000000] Booting Linux on physical CPU 0x0
[    0.000000] Linux version 3.14.0-xilinx-gb190cb0-dirty (lzq@armdev2) (gcc version 4.8.3 20140320 (prerelease) (Sourcery CodeBench Lite 2014.05-23) ) #57 SMP PREEMPT Fri Dec 9 14:49:22 CST 2016
[    0.000000] CPU: ARMv7 Processor [413fc090] revision 0 (ARMv7), cr=18c5387d
[    0.000000] CPU: PIPT / VIPT nonaliasing data cache, VIPT aliasing instruction cache
[    0.000000] Machine model: Xilinx Zynq
[    0.000000] cma: CMA: reserved 128 MiB at 16800000
[    0.000000] Memory policy: Data cache writealloc
[    0.000000] On node 0 totalpages: 126976
[    0.000000] free_area_init_node: node 0, pgdat c0740a40, node_mem_map debd8000
[    0.000000]   Normal zone: 992 pages used for memmap
[    0.000000]   Normal zone: 0 pages reserved
[    0.000000]   Normal zone: 126976 pages, LIFO batch:31
[    0.000000] PERCPU: Embedded 8 pages/cpu @debc1000 s9088 r8192 d15488 u32768
[    0.000000] pcpu-alloc: s9088 r8192 d15488 u32768 alloc=8*4096
[    0.000000] pcpu-alloc: [0] 0 [0] 1
[    0.000000] Built 1 zonelists in Zone order, mobility grouping on.  Total pages: 125984
[    0.000000] Kernel command line: noinitrd mem=496M console=ttyPS0,115200 root=ubi0:rootfs ubi.mtd=1 rootfstype=ubifs rw rootwait
[    0.000000] PID hash table entries: 2048 (order: 1, 8192 bytes)
[    0.000000] Dentry cache hash table entries: 65536 (order: 6, 262144 bytes)
[    0.000000] Inode-cache hash table entries: 32768 (order: 5, 131072 bytes)
[    0.000000] Memory: 364356K/507904K available (5032K kernel code, 283K rwdata, 1916K rodata, 204K init, 258K bss, 143548K reserved, 0K highmem)
[    0.000000] Virtual kernel memory layout:
[    0.000000]     vector  : 0xffff0000 - 0xffff1000   (   4 kB)
[    0.000000]     fixmap  : 0xfff00000 - 0xfffe0000   ( 896 kB)
[    0.000000]     vmalloc : 0xdf800000 - 0xff000000   ( 504 MB)
[    0.000000]     lowmem  : 0xc0000000 - 0xdf000000   ( 496 MB)
[    0.000000]     pkmap   : 0xbfe00000 - 0xc0000000   (   2 MB)
[    0.000000]     modules : 0xbf000000 - 0xbfe00000   (  14 MB)
[    0.000000]       .text : 0xc0008000 - 0xc06d1374   (6949 kB)
[    0.000000]       .init : 0xc06d2000 - 0xc0705380   ( 205 kB)
[    0.000000]       .data : 0xc0706000 - 0xc074cf78   ( 284 kB)
[    0.000000]        .bss : 0xc074cf84 - 0xc078d9fc   ( 259 kB)
[    0.000000] Preemptible hierarchical RCU implementation.
[    0.000000] Dump stacks of tasks blocking RCU-preempt GP.
[    0.000000] RCU restricting CPUs from NR_CPUS=4 to nr_cpu_ids=2.
[    0.000000] RCU: Adjusting geometry for rcu_fanout_leaf=16, nr_cpu_ids=2
[    0.000000] NR_IRQS:16 nr_irqs:16 16
[    0.000000] ps7-slcr mapped to df802000
[    0.000000] zynq_clock_init: clkc starts at df802100
[    0.000000] Zynq clock init
[    0.000014] sched_clock: 64 bits at 333MHz, resolution 3ns, wraps every 3298534883328ns
[    0.000304] ps7-ttc #0 at df804000, irq=43
[    0.000611] Console: colour dummy device 80x30
[    0.000641] Calibrating delay loop... 1325.46 BogoMIPS (lpj=6627328)
[    0.040203] pid_max: default: 32768 minimum: 301
[    0.040422] Mount-cache hash table entries: 1024 (order: 0, 4096 bytes)
[    0.040442] Mountpoint-cache hash table entries: 1024 (order: 0, 4096 bytes)
[    0.042590] CPU: Testing write buffer coherency: ok
[    0.042923] CPU0: thread -1, cpu 0, socket 0, mpidr 80000000
[    0.042982] Setting up static identity map for 0x4c4af8 - 0x4c4b50
[    0.043204] L310 cache controller enabled
[    0.043224] l2x0: 8 ways, CACHE_ID 0x410000c8, AUX_CTRL 0x72760000, Cache size: 512 kB
[    0.121030] CPU1: Booted secondary processor
[    0.210226] CPU1: thread -1, cpu 1, socket 0, mpidr 80000001
[    0.210356] Brought up 2 CPUs
[    0.210375] SMP: Total of 2 processors activated.
[    0.210383] CPU: All CPU(s) started in SVC mode.
[    0.211047] devtmpfs: initialized
[    0.213465] VFP support v0.3: implementor 41 architecture 3 part 30 variant 9 rev 4
[    0.214675] regulator-dummy: no parameters
[    0.222346] NET: Registered protocol family 16
[    0.224643] DMA: preallocated 256 KiB pool for atomic coherent allocations
[    0.226934] cpuidle: using governor ladder
[    0.226947] cpuidle: using governor menu
[    0.234338] syscon f8000000.ps7-slcr: regmap [mem 0xf8000000-0xf8000fff] registered
[    0.235853] hw-breakpoint: found 5 (+1 reserved) breakpoint and 1 watchpoint registers.
[    0.235866] hw-breakpoint: maximum watchpoint size is 4 bytes.
[    0.235978] zynq-ocm f800c000.ps7-ocmc: ZYNQ OCM pool: 256 KiB @ 0xdf880000
[    0.257583] bio: create slab at 0
[    0.258986] vgaarb: loaded
[    0.259677] SCSI subsystem initialized
[    0.260765] usbcore: registered new interface driver usbfs
[    0.260935] usbcore: registered new interface driver hub
[    0.261189] usbcore: registered new device driver usb
[    0.261731] media: Linux media interface: v0.10
[    0.261893] Linux video capture interface: v2.00
[    0.262132] pps_core: LinuxPPS API ver. 1 registered
[    0.262143] pps_core: Software ver. 5.3.6 - Copyright 2005-2007 Rodolfo Giometti
[    0.262266] PTP clock support registered
[    0.262631] EDAC MC: Ver: 3.0.0
[    0.263681] Advanced Linux Sound Architecture Driver Initialized.
[    0.266532] DMA-API: preallocated 4096 debug entries
[    0.266546] DMA-API: debugging enabled by kernel config
[    0.266626] Switched to clocksource arm_global_timer
[    0.287595] NET: Registered protocol family 2
[    0.288259] TCP established hash table entries: 4096 (order: 2, 16384 bytes)
[    0.288316] TCP bind hash table entries: 4096 (order: 3, 32768 bytes)
[    0.288401] TCP: Hash tables configured (established 4096 bind 4096)
[    0.288444] TCP: reno registered
[    0.288461] UDP hash table entries: 256 (order: 1, 8192 bytes)
[    0.288493] UDP-Lite hash table entries: 256 (order: 1, 8192 bytes)
[    0.288727] NET: Registered protocol family 1
[    0.289072] RPC: Registered named UNIX socket transport module.
[    0.289085] RPC: Registered udp transport module.
[    0.289093] RPC: Registered tcp transport module.
[    0.289102] RPC: Registered tcp NFSv4.1 backchannel transport module.
[    0.289114] PCI: CLS 0 bytes, default 64
[    0.289552] hw perfevents: enabled with ARMv7 Cortex-A9 PMU driver, 7 counters available
[    0.291559] futex hash table entries: 512 (order: 3, 32768 bytes)
[    0.293637] jffs2: version 2.2. (NAND) © 2001-2006 Red Hat, Inc.
[    0.293826] msgmni has been set to 967
[    0.294611] io scheduler noop registered
[    0.294624] io scheduler deadline registered
[    0.294675] io scheduler cfq registered (default)
[    0.305216] dma-pl330 f8003000.ps7-dma: Loaded driver for PL330 DMAC-2364208
[    0.305237] dma-pl330 f8003000.ps7-dma: DBUFF-128x8bytes Num_Chans-8 Num_Peri-4 Num_Events-16
[    0.429457] e0001000.serial: ttyPS0 at MMIO 0xe0001000 (irq = 82, base_baud = 3124999) is a xuartps
[    0.997209] console [ttyPS0] enabled
[    1.001462] xdevcfg f8007000.ps7-dev-cfg: ioremap 0xf8007000 to df866000
[    1.009083] [drm] Initialized drm 1.1.0 20060810
[    1.026084] brd: module loaded
[    1.035423] loop: module loaded
[    1.044817] e1000e: Intel(R) PRO/1000 Network Driver - 2.3.2-k
[    1.050799] e1000e: Copyright(c) 1999 - 2013 Intel Corporation.
[    1.058629] libphy: XEMACPS mii bus: probed
[    1.062995] ------------- phy_id = 0x3625e62
[    1.067894] xemacps e000b000.ps7-ethernet: pdev->id -1, baseaddr 0xe000b000, irq 54
[    1.076473] ehci_hcd: USB 2.0 'Enhanced' Host Controller (EHCI) Driver
[    1.083130] ehci-pci: EHCI PCI platform driver
[    1.090406] zynq-dr e0002000.ps7-usb: Unable to init USB phy, missing?
[    1.097287] usbcore: registered new interface driver usb-storage
[    1.104124] mousedev: PS/2 mouse device common for all mice
[    1.110261] i2c /dev entries driver
[    1.117179] zynq-edac f8006000.ps7-ddrc: ecc not enabled
[    1.122662] cpufreq_cpu0: failed to get cpu0 regulator: -19
[    1.128585] Xilinx Zynq CpuIdle Driver started
[    1.133429] sdhci: Secure Digital Host Controller Interface driver
[    1.139642] sdhci: Copyright(c) Pierre Ossman
[    1.143909] sdhci-pltfm: SDHCI platform and OF driver helper
[    1.150728] mmc0: no vqmmc regulator found
[    1.154745] mmc0: no vmmc regulator found
[    1.196648] mmc0: SDHCI controller on e0100000.ps7-sdio [e0100000.ps7-sdio] using ADMA
[    1.205332] usbcore: registered new interface driver usbhid
[    1.210840] usbhid: USB HID core driver
[    1.215554] nand: device found, Manufacturer ID: 0x2c, Chip ID: 0xda
[    1.221848] nand: Micron MT29F2G08ABAEAWP
[    1.225817] nand: 256MiB, SLC, page size: 2048, OOB size: 64
[    1.231752] Bad block table found at page 131008, version 0x01
[    1.237973] Bad block table found at page 130944, version 0x01
[    1.244029] 3 ofpart partitions found on MTD device pl353-nand
[    1.249805] Creating 3 MTD partitions on "pl353-nand":
[    1.254898] 0x000000000000-0x000002000000 : "BOOT.bin-env-dts-kernel"
[    1.262948] 0x000002000000-0x00000b000000 : "angstram-rootfs"
[    1.270250] 0x00000b000000-0x000010000000 : "upgrade-rootfs"
[    1.279185] TCP: cubic registered
[    1.282420] NET: Registered protocol family 17
[    1.287138] Registering SWP/SWPB emulation handler
[    1.293010] regulator-dummy: disabling
[    1.297364] UBI: attaching mtd1 to ubi0
[    1.823609] UBI: scanning is finished
[    1.835206] UBI: attached mtd1 (name "angstram-rootfs", size 144 MiB) to ubi0
[    1.842287] UBI: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
[    1.849050] UBI: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
[    1.855714] UBI: VID header offset: 2048 (aligned 2048), data offset: 4096
[    1.862592] UBI: good PEBs: 1152, bad PEBs: 0, corrupted PEBs: 0
[    1.868573] UBI: user volume: 1, internal volumes: 1, max. volumes count: 128
[    1.875680] UBI: max/mean erase counter: 3/1, WL threshold: 4096, image sequence number: 862493722
[    1.884636] UBI: available PEBs: 0, total reserved PEBs: 1152, PEBs reserved for bad PEB handling: 40
[    1.893852] UBI: background thread "ubi_bgt0d" started, PID 1080
[    1.893857] drivers/rtc/hctosys.c: unable to open rtc device (rtc0)
[    1.897833] ALSA device list:
[    1.897836]   No soundcards found.
[    1.914241] UBIFS: background thread "ubifs_bgt0_0" started, PID 1082
[    1.943206] UBIFS: recovery needed
[    2.150105] UBIFS: recovery completed
[    2.153779] UBIFS: mounted UBI device 0, volume 0, name "rootfs"
[    2.159730] UBIFS: LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
[    2.168834] UBIFS: FS size: 128626688 bytes (122 MiB, 1013 LEBs), journal size 9023488 bytes (8 MiB, 72 LEBs)
[    2.178723] UBIFS: reserved for root: 0 bytes (0 KiB)
[    2.183752] UBIFS: media format: w4/r0 (latest is w4/r0), UUID 2A24A8E1-2021-4A54-8A4E-D8E294AE00E5, small LPT model
[    2.195050] VFS: Mounted root (ubifs filesystem) on device 0:11.
[    2.202010] devtmpfs: mounted
[    2.205113] Freeing unused kernel memory: 204K (c06d2000 - c0705000)
[    3.044940] random: dd urandom read with 0 bits of entropy available
[    3.436669]
[    3.436669] bcm54xx_config_init
[    4.046675]
[    4.046675] bcm54xx_config_init
[    8.047518] xemacps e000b000.ps7-ethernet: Set clk to 24999999 Hz
[    8.053608] xemacps e000b000.ps7-ethernet: link up (100/FULL)
[   22.990489] In axi fpga driver!
[   22.993562] request_mem_region OK!
[   22.996985] AXI fpga dev virtual address is 0xdf9fc000
[   23.002060] *base_vir_addr = 0xc510
[   23.017272] In fpga mem driver!
[   23.020341] request_mem_region OK!
[   23.023902] fpga mem virtual address is 0xe2000000
[   23.826054]
[   23.826054] bcm54xx_config_init
[   24.456002]
[   24.456002] bcm54xx_config_init
[   28.456450] xemacps e000b000.ps7-ethernet: Set clk to 24999999 Hz
[   28.462472] xemacps e000b000.ps7-ethernet: link up (100/FULL)
[  407.898928] random: nonblocking pool is initialized
This is XILINX board. Totalram:       507527168
Detect 512MB control board of XILINX
DETECT HW version=8000c510
miner ID : 8028958e76808814
Miner Type = T9+
AsicType = 1387
real AsicNum = 18
use critical mode to search freq...
get PLUG ON=0x07003f0e
Find hashboard on Chain[1]
Find hashboard on Chain[2]
Find hashboard on Chain[3]
Find hashboard on Chain[8]
Find hashboard on Chain[9]
Find hashboard on Chain[10]
Find hashboard on Chain[11]
Find hashboard on Chain[12]
Find hashboard on Chain[13]
set_reset_allhashboard = 0x0000ffff
chain[1] PIC jump to app
Check chain[1] PIC fw version=0x90
chain[2] PIC jump to app
Check chain[2] PIC fw version=0x90
chain[3] PIC jump to app
Check chain[3] PIC fw version=0x90
Chain[1] read_freq_badcores : 0x7d 0x33 0x33 0x33 0x11 0x33 0x33 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x21 0x11 0x38 0x21 0x11 0x14 0x11 0x30 0x11 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x12 0x18 0x01 0x45 0x15 0x14 0x11 0x71 0x11 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x14 0x21 0x11 0x11 0x11 0x00 0x11 0x11 0x11 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff
chain[1]: [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255]
has freq in PIC, will disable freq setting.
chain[1] has freq in PIC and will jump over...
Chain[1] has core num in PIC
Chain[1] ASIC[0] has core num=2
Chain[1] ASIC[1] has core num=1
Chain[1] ASIC[2] has core num=1
Chain[1] ASIC[3] has core num=1
Chain[1] ASIC[4] has core num=3
Chain[1] ASIC[5] has core num=8
Chain[1] ASIC[6] has core num=2
Chain[1] ASIC[7] has core num=1
Chain[1] ASIC[8] has core num=1
Chain[1] ASIC[9] has core num=1
Chain[1] ASIC[10] has core num=1
Chain[1] ASIC[11] has core num=4
Chain[1] ASIC[12] has core num=1
Chain[1] ASIC[13] has core num=1
Chain[1] ASIC[14] has core num=3
Chain[1] ASIC[16] has core num=1
Chain[1] ASIC[17] has core num=1
Chain[2] read_freq_badcores : 0x7d 0x33 0x33 0x33 0x11 0x33 0x33 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x11 0x12 0x32 0x11 0x11 0x01 0x11 0x20 0x51 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x51 0x11 0x11 0x31 0x02 0x16 0x20 0x81 0x11 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x90 0x20 0x52 0x11 0x04 0x13 0x14 0x11 0x11 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff
chain[2]: [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255]
has freq in PIC, will disable freq setting.
chain[2] has freq in PIC and will jump over...
Chain[2] has core num in PIC
Chain[2] ASIC[0] has core num=1
Chain[2] ASIC[1] has core num=1
Chain[2] ASIC[2] has core num=1
Chain[2] ASIC[3] has core num=2
Chain[2] ASIC[4] has core num=3
Chain[2] ASIC[5] has core num=2
Chain[2] ASIC[6] has core num=1
Chain[2] ASIC[7] has core num=1
Chain[2] ASIC[8] has core num=1
Chain[2] ASIC[9] has core num=1
Chain[2] ASIC[11] has core num=1
Chain[2] ASIC[12] has core num=1
Chain[2] ASIC[13] has core num=1
Chain[2] ASIC[14] has core num=2
Chain[2] ASIC[16] has core num=5
Chain[2] ASIC[17] has core num=1
Chain[3] read_freq_badcores : 0x7d 0x33 0x33 0x33 0x11 0x33 0x33 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x10 0x10 0x00 0x10 0x10 0x01 0x10 0x11 0x13 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x03 0x01 0x11 0x00 0x30 0x00 0x11 0x11 0x21 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x10 0x00 0x00 0x10 0x12 0x02 0x01 0x84 0x11 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff
chain[3]: [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255]
has freq in PIC, will disable freq setting.
chain[3] has freq in PIC and will jump over...
Chain[3] has core num in PIC
Chain[3] ASIC[0] has core num=1
Chain[3] ASIC[2] has core num=1
Chain[3] ASIC[6] has core num=1
Chain[3] ASIC[8] has core num=1
Chain[3] ASIC[11] has core num=1
Chain[3] ASIC[12] has core num=1
Chain[3] ASIC[14] has core num=1
Chain[3] ASIC[15] has core num=1
Chain[3] ASIC[16] has core num=1
Chain[3] ASIC[17] has core num=3
has freq in PIC, will disable freq setting.
chain[8] has freq in PIC and will jump over...
Chain[8] has core num in PIC
Chain[8] ASIC[0] has core num=1
Chain[8] ASIC[1] has core num=2
Chain[8] ASIC[2] has core num=1
Chain[8] ASIC[3] has core num=8
Chain[8] ASIC[5] has core num=1
Chain[8] ASIC[6] has core num=4
Chain[8] ASIC[7] has core num=5
Chain[8] ASIC[8] has core num=1
Chain[8] ASIC[9] has core num=5
Chain[8] ASIC[10] has core num=1
Chain[8] ASIC[11] has core num=4
Chain[8] ASIC[12] has core num=1
Chain[8] ASIC[13] has core num=1
Chain[8] ASIC[14] has core num=7
Chain[8] ASIC[15] has core num=1
Chain[8] ASIC[16] has core num=1
Chain[8] ASIC[17] has core num=1
has freq in PIC, will disable freq setting.
chain[9] has freq in PIC and will jump over...
Chain[9] has core num in PIC
Chain[9] ASIC[0] has core num=1
Chain[9] ASIC[1] has core num=4
Chain[9] ASIC[2] has core num=2
Chain[9] ASIC[3] has core num=1
Chain[9] ASIC[4] has core num=1
Chain[9] ASIC[5] has core num=1
Chain[9] ASIC[6] has core num=1
Chain[9] ASIC[7] has core num=1
Chain[9] ASIC[8] has core num=1
Chain[9] ASIC[9] has core num=1
Chain[9] ASIC[12] has core num=1
Chain[9] ASIC[13] has core num=1
Chain[9] ASIC[14] has core num=1
Chain[9] ASIC[15] has core num=1
Chain[9] ASIC[16] has core num=1
Chain[9] ASIC[17] has core num=1
has freq in PIC, will disable freq setting.
chain[10] has freq in PIC and will jump over...
Chain[10] has core num in PIC
Chain[10] ASIC[0] has core num=5
Chain[10] ASIC[1] has core num=1
Chain[10] ASIC[2] has core num=1
Chain[10] ASIC[3] has core num=1
Chain[10] ASIC[4] has core num=1
Chain[10] ASIC[5] has core num=1
Chain[10] ASIC[6] has core num=3
Chain[10] ASIC[7] has core num=1
Chain[10] ASIC[9] has core num=2
Chain[10] ASIC[10] has core num=1
Chain[10] ASIC[11] has core num=6
Chain[10] ASIC[12] has core num=2
Chain[10] ASIC[14] has core num=8
Chain[10] ASIC[15] has core num=1
Chain[10] ASIC[16] has core num=1
Chain[10] ASIC[17] has core num=1
has freq in PIC, will disable freq setting.
chain[11] has freq in PIC and will jump over...
Chain[11] has core num in PIC
Chain[11] ASIC[0] has core num=9
Chain[11] ASIC[2] has core num=2
Chain[11] ASIC[4] has core num=5
Chain[11] ASIC[5] has core num=2
Chain[11] ASIC[6] has core num=1
Chain[11] ASIC[7] has core num=1
Chain[11] ASIC[9] has core num=4
Chain[11] ASIC[10] has core num=1
Chain[11] ASIC[11] has core num=3
Chain[11] ASIC[12] has core num=1
Chain[11] ASIC[13] has core num=4
Chain[11] ASIC[14] has core num=1
Chain[11] ASIC[15] has core num=1
Chain[11] ASIC[16] has core num=1
Chain[11] ASIC[17] has core num=1
has freq in PIC, will disable freq setting.
chain[12] has freq in PIC and will jump over...
Chain[12] has core num in PIC
Chain[12] ASIC[1] has core num=3
Chain[12] ASIC[3] has core num=1
Chain[12] ASIC[4] has core num=1
Chain[12] ASIC[5] has core num=1
Chain[12] ASIC[8] has core num=3
Chain[12] ASIC[12] has core num=1
Chain[12] ASIC[13] has core num=1
Chain[12] ASIC[14] has core num=1
Chain[12] ASIC[15] has core num=1
Chain[12] ASIC[16] has core num=2
Chain[12] ASIC[17] has core num=1
has freq in PIC, will disable freq setting.
chain[13] has freq in PIC and will jump over...
Chain[13] has core num in PIC
Chain[13] ASIC[0] has core num=1
Chain[13] ASIC[6] has core num=1
Chain[13] ASIC[8] has core num=1
Chain[13] ASIC[9] has core num=2
Chain[13] ASIC[11] has core num=2
Chain[13] ASIC[13] has core num=1
Chain[13] ASIC[14] has core num=8
Chain[13] ASIC[15] has core num=4
Chain[13] ASIC[16] has core num=1
Chain[13] ASIC[17] has core num=1
get PIC voltage=11 on chain[1], value=870
get PIC voltage=11 on chain[2], value=870
get PIC voltage=11 on chain[3], value=870
get PIC voltage=11 on chain[8], value=870
get PIC voltage=11 on chain[9], value=870
get PIC voltage=11 on chain[10], value=870
get PIC voltage=11 on chain[11], value=870
get PIC voltage=11 on chain[12], value=870
get PIC voltage=11 on chain[13], value=870
set_reset_allhashboard = 0x00000000
chain[8] temp offset record: 1,2,0,0,0,0,33,28
chain[8] temp chip I2C addr=0x98
chain[10] temp offset record: 1,3,0,0,0,0,33,28
chain[10] temp chip I2C addr=0x98
chain[12] temp offset record: 1,3,0,0,0,0,33,28
chain[12] temp chip I2C addr=0x98
set_reset_allhashboard = 0x0000ffff
set_reset_allhashboard = 0x00000000
CRC error counter=0
set command mode to VIL

--- check asic number
After Get ASIC NUM CRC error counter=0
set_baud=0
The min freq=700
set real timeout 52, need sleep=379392
After TEST CRC error counter=0
search freq for 1 times, completed chain = 9, total chain num = 9
set_reset_allhashboard = 0x0000ffff
set_reset_allhashboard = 0x00000000
restart Miner chance num=2
waiting for receive_func to exit!
waiting for pic heart to exit!
bmminer not found= 1401 root       0:00 grep bmminer

bmminer not found, restart bmminer ...
This is user mode for mining
Detect 512MB control board of XILINX
Miner Type = T9+
Miner compile time: Fri Nov 24 23:19:16 EST 2017 type: Antminer T9+set_reset_allhashboard = 0x0000ffff
set_reset_allhashboard = 0x00000000
set_reset_allhashboard = 0x0000ffff
miner ID : 8028958e76808814
set_reset_allhashboard = 0x0000ffff
Checking fans!get fan[5] speed=5880
get fan[2] speed=5880
get fan[5] speed=5880
get fan[2] speed=5880
get fan[5] speed=5880
chain[1] PIC jump to app
Check chain[1] PIC fw version=0x90
Chain[1] read_freq_badcores : 0x7d 0x33 0x33 0x33 0x11 0x33 0x33 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x21 0x11 0x38 0x21 0x11 0x14 0x11 0x30 0x11 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x12 0x18 0x01 0x45 0x15 0x14 0x11 0x71 0x11 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x14 0x21 0x11 0x11 0x11 0x00 0x11 0x11 0x11 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff
chain[1]: [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255]
Chain[J2] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J2] test patten OK temp=-1
chain[2] PIC jump to app
Check chain[2] PIC fw version=0x90
Chain[2] read_freq_badcores : 0x7d 0x33 0x33 0x33 0x11 0x33 0x33 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x11 0x12 0x32 0x11 0x11 0x01 0x11 0x20 0x51 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x51 0x11 0x11 0x31 0x02 0x16 0x20 0x81 0x11 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x90 0x20 0x52 0x11 0x04 0x13 0x14 0x11 0x11 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff
chain[2]: [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255]
Chain[J3] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J3] test patten OK temp=-1
chain[3] PIC jump to app
Check chain[3] PIC fw version=0x90
Chain[3] read_freq_badcores : 0x7d 0x33 0x33 0x33 0x11 0x33 0x33 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x10 0x10 0x00 0x10 0x10 0x01 0x10 0x11 0x13 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x03 0x01 0x11 0x00 0x30 0x00 0x11 0x11 0x21 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x10 0x00 0x00 0x10 0x12 0x02 0x01 0x84 0x11 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff 0xff
chain[3]: [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255] [255:255]
Chain[J4] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J4] test patten OK temp=-1
Chain[J9] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J9] test patten OK temp=-1
Chain[J10] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J10] test patten OK temp=-1
Chain[J11] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J11] test patten OK temp=-1
Chain[J12] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J12] test patten OK temp=-1
Chain[J13] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J13] test patten OK temp=-1
Chain[J14] has backup chain_voltage=870
Detect: use voltage limit rules on single board!
Detect: T9+ use voltage level=1
Chain[J14] test patten OK temp=-1
Chain[J2] will use voltage=930 [1] to open core
Chain[J3] will use voltage=930 [1] to open core
Chain[J4] will use voltage=930 [1] to open core
Chain[J9] will use voltage=930 [1] to open core
Chain[J10] will use voltage=930 [1] to open core
Chain[J11] will use voltage=930 [1] to open core
Chain[J12] will use voltage=930 [1] to open core
Chain[J13] will use voltage=930 [1] to open core
Chain[J14] will use voltage=930 [1] to open core
Chain[J2] orignal chain_voltage_pic=11 value=870
Chain[J3] orignal chain_voltage_pic=11 value=870
Chain[J4] orignal chain_voltage_pic=11 value=870
Chain[J9] orignal chain_voltage_pic=1 value=930
Chain[J9] will use backup chain_voltage_pic=870 [11]
Chain[J9] get working chain_voltage_pic=11
Chain[J10] orignal chain_voltage_pic=1 value=930
Chain[J10] will use backup chain_voltage_pic=870 [11]
Chain[J10] get working chain_voltage_pic=11
Chain[J11] orignal chain_voltage_pic=1 value=930
Chain[J11] will use backup chain_voltage_pic=870 [11]
Chain[J11] get working chain_voltage_pic=11
Chain[J12] orignal chain_voltage_pic=1 value=930
Chain[J12] will use backup chain_voltage_pic=870 [11]
Chain[J12] get working chain_voltage_pic=11
Chain[J13] orignal chain_voltage_pic=1 value=930
Chain[J13] will use backup chain_voltage_pic=870 [11]
Chain[J13] get working chain_voltage_pic=11
Chain[J14] orignal chain_voltage_pic=1 value=930
Chain[J14] will use backup chain_voltage_pic=870 [11]
Chain[J14] get working chain_voltage_pic=11
set_reset_allhashboard = 0x0000ffff
set_reset_allhashboard = 0x00000000
T9+ try get asic num for the 1 time
Chain[J2] has 18 asic
Chain[J3] has 18 asic
Chain[J4] has 18 asic
Chain[J9] has 18 asic
Chain[J10] has 18 asic
Chain[J11] has 18 asic
Chain[J12] has 18 asic
Chain[J13] has 18 asic
Chain[J14] has 18 asic
Chain[J2] has core num in PIC
Chain[J2] ASIC[0] has core num=2
Chain[J2] ASIC[1] has core num=1
Chain[J2] ASIC[2] has core num=1
Chain[J2] ASIC[3] has core num=1
Chain[J2] ASIC[4] has core num=3
Chain[J2] ASIC[5] has core num=8
Chain[J2] ASIC[6] has core num=2
Chain[J2] ASIC[7] has core num=1
Chain[J2] ASIC[8] has core num=1
Chain[J2] ASIC[9] has core num=1
Chain[J2] ASIC[10] has core num=1
Chain[J2] ASIC[11] has core num=4
Chain[J2] ASIC[12] has core num=1
Chain[J2] ASIC[13] has core num=1
Chain[J2] ASIC[14] has core num=3
Chain[J2] ASIC[16] has core num=1
Chain[J2] ASIC[17] has core num=1
Chain[J3] has core num in PIC
Chain[J3] ASIC[0] has core num=1
Chain[J3] ASIC[1] has core num=1
Chain[J3] ASIC[2] has core num=1
Chain[J3] ASIC[3] has core num=2
Chain[J3] ASIC[4] has core num=3
Chain[J3] ASIC[5] has core num=2
Chain[J3] ASIC[6] has core num=1
Chain[J3] ASIC[7] has core num=1
Chain[J3] ASIC[8] has core num=1
Chain[J3] ASIC[9] has core num=1
Chain[J3] ASIC[11] has core num=1
Chain[J3] ASIC[12] has core num=1
Chain[J3] ASIC[13] has core num=1
Chain[J3] ASIC[14] has core num=2
Chain[J3] ASIC[16] has core num=5
Chain[J3] ASIC[17] has core num=1
Chain[J4] has core num in PIC
Chain[J4] ASIC[0] has core num=1
Chain[J4] ASIC[2] has core num=1
Chain[J4] ASIC[6] has core num=1
Chain[J4] ASIC[8] has core num=1
Chain[J4] ASIC[11] has core num=1
Chain[J4] ASIC[12] has core num=1
Chain[J4] ASIC[14] has core num=1
Chain[J4] ASIC[15] has core num=1
Chain[J4] ASIC[16] has core num=1
Chain[J4] ASIC[17] has core num=3
Chain[J9] has core num in PIC
Chain[J9] ASIC[0] has core num=1
Chain[J9] ASIC[1] has core num=2
Chain[J9] ASIC[2] has core num=1
Chain[J9] ASIC[3] has core num=8
Chain[J9] ASIC[5] has core num=1
Chain[J9] ASIC[6] has core num=4
Chain[J9] ASIC[7] has core num=5
Chain[J9] ASIC[8] has core num=1
Chain[J9] ASIC[9] has core num=5
Chain[J9] ASIC[10] has core num=1
Chain[J9] ASIC[11] has core num=4
Chain[J9] ASIC[12] has core num=1
Chain[J9] ASIC[13] has core num=1
Chain[J9] ASIC[14] has core num=7
Chain[J9] ASIC[15] has core num=1
Chain[J9] ASIC[16] has core num=1
Chain[J9] ASIC[17] has core num=1
Chain[J10] has core num in PIC
Chain[J10] ASIC[0] has core num=1
Chain[J10] ASIC[1] has core num=4
Chain[J10] ASIC[2] has core num=2
Chain[J10] ASIC[3] has core num=1
Chain[J10] ASIC[4] has core num=1
Chain[J10] ASIC[5] has core num=1
Chain[J10] ASIC[6] has core num=1
Chain[J10] ASIC[7] has core num=1
Chain[J10] ASIC[8] has core num=1
Chain[J10] ASIC[9] has core num=1
Chain[J10] ASIC[12] has core num=1
Chain[J10] ASIC[13] has core num=1
Chain[J10] ASIC[14] has core num=1
Chain[J10] ASIC[15] has core num=1
Chain[J10] ASIC[16] has core num=1
Chain[J10] ASIC[17] has core num=1
Chain[J11] has core num in PIC
Chain[J11] ASIC[0] has core num=5
Chain[J11] ASIC[1] has core num=1
Chain[J11] ASIC[2] has core num=1
Chain[J11] ASIC[3] has core num=1
Chain[J11] ASIC[4] has core num=1
Chain[J11] ASIC[5] has core num=1
Chain[J11] ASIC[6] has core num=3
Chain[J11] ASIC[7] has core num=1
Chain[J11] ASIC[9] has core num=2
Chain[J11] ASIC[10] has core num=1
Chain[J11] ASIC[11] has core num=6
Chain[J11] ASIC[12] has core num=2
Chain[J11] ASIC[14] has core num=8
Chain[J11] ASIC[15] has core num=1
Chain[J11] ASIC[16] has core num=1
Chain[J11] ASIC[17] has core num=1
Chain[J12] has core num in PIC
Chain[J12] ASIC[0] has core num=9
Chain[J12] ASIC[2] has core num=2
Chain[J12] ASIC[4] has core num=5
Chain[J12] ASIC[5] has core num=2
Chain[J12] ASIC[6] has core num=1
Chain[J12] ASIC[7] has core num=1
Chain[J12] ASIC[9] has core num=4
Chain[J12] ASIC[10] has core num=1
Chain[J12] ASIC[11] has core num=3
Chain[J12] ASIC[12] has core num=1
Chain[J12] ASIC[13] has core num=4
Chain[J12] ASIC[14] has core num=1
Chain[J12] ASIC[15] has core num=1
Chain[J12] ASIC[16] has core num=1
Chain[J12] ASIC[17] has core num=1
Chain[J13] has core num in PIC
Chain[J13] ASIC[1] has core num=3
Chain[J13] ASIC[3] has core num=1
Chain[J13] ASIC[4] has core num=1
Chain[J13] ASIC[5] has core num=1
Chain[J13] ASIC[8] has core num=3
Chain[J13] ASIC[12] has core num=1
Chain[J13] ASIC[13] has core num=1
Chain[J13] ASIC[14] has core num=1
Chain[J13] ASIC[15] has core num=1
Chain[J13] ASIC[16] has core num=2
Chain[J13] ASIC[17] has core num=1
Chain[J14] has core num in PIC
Chain[J14] ASIC[0] has core num=1
Chain[J14] ASIC[6] has core num=1
Chain[J14] ASIC[8] has core num=1
Chain[J14] ASIC[9] has core num=2
Chain[J14] ASIC[11] has core num=2
Chain[J14] ASIC[13] has core num=1
Chain[J14] ASIC[14] has core num=8
Chain[J14] ASIC[15] has core num=4
Chain[J14] ASIC[16] has core num=1
Chain[J14] ASIC[17] has core num=1
miner total rate=10538GH/s fixed rate=10500GH/s
read PIC voltage=930 on chain[1]
Chain:1 chipnum=18
Chain[J2] voltage added=0.0V
Chain:1 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:1 max freq=581
Chain:1 min freq=581

read PIC voltage=930 on chain[2]
Chain:2 chipnum=18
Chain[J3] voltage added=0.0V
Chain:2 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:2 max freq=581
Chain:2 min freq=581

read PIC voltage=930 on chain[3]
Chain:3 chipnum=18
Chain[J4] voltage added=0.0V
Chain:3 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:3 max freq=575
Chain:3 min freq=575

read PIC voltage=930 on chain[8]
Chain:8 chipnum=18
Chain[J9] voltage added=0.0V
Chain:8 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:8 max freq=581
Chain:8 min freq=581

read PIC voltage=930 on chain[9]
Chain:9 chipnum=18
Chain[J10] voltage added=0.0V
Chain:9 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:9 max freq=575
Chain:9 min freq=575

read PIC voltage=930 on chain[10]
Chain:10 chipnum=18
Chain[J11] voltage added=0.0V
Chain:10 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:10 max freq=581
Chain:10 min freq=581

read PIC voltage=930 on chain[11]
Chain:11 chipnum=18
Chain[J12] voltage added=0.0V
Chain:11 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:11 max freq=581
Chain:11 min freq=581

read PIC voltage=930 on chain[12]
Chain:12 chipnum=18
Chain[J13] voltage added=0.0V
Chain:12 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:12 max freq=575
Chain:12 min freq=575

read PIC voltage=930 on chain[13]
Chain:13 chipnum=18
Chain[J14] voltage added=0.0V
Chain:13 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:13 max freq=575
Chain:13 min freq=575


Miner fix freq ...
read PIC voltage=930 on chain[1]
Chain:1 chipnum=18
Chain[J2] voltage added=0.0V
Chain:1 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:1 max freq=581
Chain:1 min freq=581

read PIC voltage=930 on chain[2]
Chain:2 chipnum=18
Chain[J3] voltage added=0.0V
Chain:2 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:2 max freq=581
Chain:2 min freq=581

read PIC voltage=930 on chain[3]
Chain:3 chipnum=18
Chain[J4] voltage added=0.0V
Chain:3 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:3 max freq=575
Chain:3 min freq=575

read PIC voltage=930 on chain[8]
Chain:8 chipnum=18
Chain[J9] voltage added=0.0V
Chain:8 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:8 max freq=581
Chain:8 min freq=581

read PIC voltage=930 on chain[9]
Chain:9 chipnum=18
Chain[J10] voltage added=0.0V
Chain:9 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:9 max freq=575
Chain:9 min freq=575

read PIC voltage=930 on chain[10]
Chain:10 chipnum=18
Chain[J11] voltage added=0.0V
Chain:10 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:10 max freq=581
Chain:10 min freq=581

read PIC voltage=930 on chain[11]
Chain:11 chipnum=18
Chain[J12] voltage added=0.0V
Chain:11 base freq=581
Asic[ 0]:581
Asic[ 1]:581 Asic[ 2]:581 Asic[ 3]:581 Asic[ 4]:581 Asic[ 5]:581 Asic[ 6]:581 Asic[ 7]:581 Asic[ 8]:581
Asic[ 9]:581 Asic[10]:581 Asic[11]:581 Asic[12]:581 Asic[13]:581 Asic[14]:581 Asic[15]:581 Asic[16]:581
Asic[17]:581
Chain:11 max freq=581
Chain:11 min freq=581

read PIC voltage=930 on chain[12]
Chain:12 chipnum=18
Chain[J13] voltage added=0.0V
Chain:12 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:12 max freq=575
Chain:12 min freq=575

read PIC voltage=930 on chain[13]
Chain:13 chipnum=18
Chain[J14] voltage added=0.0V
Chain:13 base freq=575
Asic[ 0]:575
Asic[ 1]:575 Asic[ 2]:575 Asic[ 3]:575 Asic[ 4]:575 Asic[ 5]:575 Asic[ 6]:575 Asic[ 7]:575 Asic[ 8]:575
Asic[ 9]:575 Asic[10]:575 Asic[11]:575 Asic[12]:575 Asic[13]:575 Asic[14]:575 Asic[15]:575 Asic[16]:575
Asic[17]:575
Chain:13 max freq=575
Chain:13 min freq=575

max freq = 581
set baud=1
Chain[J9] PIC temp offset=1,2,0,0,0,0,33,28
chain[8] temp chip I2C addr=0x98
Chain[J9] chip[0] use PIC middle temp offset=2 typeID=41
New offset Chain[8] chip[0] local:29 remote:27 offset:32
Chain[J9] chip[0] get middle temp offset=32 typeID=41
Chain[J11] PIC temp offset=1,3,0,0,0,0,33,28
chain[10] temp chip I2C addr=0x98
Chain[J11] chip[0] use PIC middle temp offset=3 typeID=41
New offset Chain[10] chip[0] local:30 remote:25 offset:35
Chain[J11] chip[0] get middle temp offset=35 typeID=41
Chain[J13] PIC temp offset=1,3,0,0,0,0,33,28
chain[12] temp chip I2C addr=0x98
Chain[J13] chip[0] use PIC middle temp offset=3 typeID=41
New offset Chain[12] chip[0] local:30 remote:28 offset:32
Chain[J13] chip[0] get middle temp offset=32 typeID=41
single board rate=1173 voltage limit=870 on chain[1]
get PIC voltage=870 on chain[1], check: must be < 870
single board rate=1177 voltage limit=870 on chain[2]
get PIC voltage=870 on chain[2], check: must be < 870
single board rate=1173 voltage limit=870 on chain[3]
get PIC voltage=870 on chain[3], check: must be < 870
single board rate=1166 voltage limit=870 on chain[8]
get PIC voltage=870 on chain[8], check: must be < 870
single board rate=1168 voltage limit=870 on chain[9]
get PIC voltage=870 on chain[9], check: must be < 870
single board rate=1171 voltage limit=870 on chain[10]
get PIC voltage=870 on chain[10], check: must be < 870
single board rate=1170 voltage limit=870 on chain[11]
get PIC voltage=870 on chain[11], check: must be < 870
single board rate=1170 voltage limit=870 on chain[12]
get PIC voltage=870 on chain[12], check: must be < 870
single board rate=1167 voltage limit=870 on chain[13]
get PIC voltage=870 on chain[13], check: must be < 870
open core on chain[1] [8] [9]...
set voltage=870 on chain[1], the real voltage=870
Chain[J2] set working voltage=870 [11]
open core on chain[2] [10] [11]...
set voltage=870 on chain[2], the real voltage=870
Chain[J3] set working voltage=870 [11]
open core on chain[3] [12] [13]...
set voltage=870 on chain[3], the real voltage=870
Chain[J4] set working voltage=870 [11]
setStartTimePoint total_tv_start_sys=144 total_tv_end_sys=145
restartNum = 2 , auto-reinit enabled...
Fatal Error: network connection lost!
do read_temp_func once...
do check_asic_reg 0x08

get RT hashrate from Chain[1]: (asic index start from 1-18)
Asic[01]=65.2630 Asic[02]=71.3530 Asic[03]=64.3740 Asic[04]=69.7590 Asic[05]=58.6690 Asic[06]=60.5820 Asic[07]=64.5750 Asic[08]=58.1330
Asic[09]=63.9370 Asic[10]=61.6730 Asic[11]=61.8570 Asic[12]=62.5620 Asic[13]=67.6280 Asic[14]=66.9910 Asic[15]=69.8600 Asic[16]=63.7700
Asic[17]=64.3740 Asic[18]=67.3940

get RT hashrate from Chain[2]: (asic index start from 1-18)
Asic[01]=58.3340 Asic[02]=70.6480 Asic[03]=71.8060 Asic[04]=66.5710 Asic[05]=61.9750 Asic[06]=63.3000 Asic[07]=67.0920 Asic[08]=67.8800
Asic[09]=67.9810 Asic[10]=64.7600 Asic[11]=67.1080 Asic[12]=57.6290 Asic[13]=62.2430 Asic[14]=68.4340 Asic[15]=66.3370 Asic[16]=61.9410
Asic[17]=64.5750 Asic[18]=60.2970

get RT hashrate from Chain[3]: (asic index start from 1-18)
Asic[01]=59.0390 Asic[02]=70.3460 Asic[03]=64.8430 Asic[04]=61.6890 Asic[05]=66.7220 Asic[06]=61.9070 Asic[07]=67.5110 Asic[08]=65.0110
Asic[09]=62.8470 Asic[10]=60.7670 Asic[11]=63.4840 Asic[12]=65.9840 Asic[13]=59.9780 Asic[14]=70.0110 Asic[15]=67.4440 Asic[16]=64.1560
Asic[17]=66.9740 Asic[18]=63.6190

get RT hashrate from Chain[8]: (asic index start from 1-18)
Asic[01]=65.0620 Asic[02]=66.2530 Asic[03]=62.4950 Asic[04]=62.3770 Asic[05]=63.7530 Asic[06]=67.8130 Asic[07]=63.7700 Asic[08]=66.9070
Asic[09]=63.6190 Asic[10]=61.3540 Asic[11]=61.0350 Asic[12]=65.8840 Asic[13]=62.5620 Asic[14]=65.6990 Asic[15]=63.2660 Asic[16]=68.4340
Asic[17]=68.6020 Asic[18]=64.8100

get RT hashrate from Chain[9]: (asic index start from 1-18)
Asic[01]=67.4270 Asic[02]=63.7030 Asic[03]=64.7930 Asic[04]=64.6760 Asic[05]=63.0150 Asic[06]=62.5280 Asic[07]=63.7030 Asic[08]=65.4810
Asic[09]=67.3940 Asic[10]=69.2060 Asic[11]=63.8030 Asic[12]=60.9180 Asic[13]=66.9570 Asic[14]=59.6590 Asic[15]=63.8370 Asic[16]=64.2390
Asic[17]=69.6080 Asic[18]=66.6720

get RT hashrate from Chain[10]: (asic index start from 1-18)
Asic[01]=60.3640 Asic[02]=59.5420 Asic[03]=65.9000 Asic[04]=64.9940 Asic[05]=69.9100 Asic[06]=67.1920 Asic[07]=66.1190 Asic[08]=64.3070
Asic[09]=69.9270 Asic[10]=64.9780 Asic[11]=73.9370 Asic[12]=62.1260 Asic[13]=62.3770 Asic[14]=63.2660 Asic[15]=65.3130 Asic[16]=64.0210
Asic[17]=63.6190 Asic[18]=63.3840

get RT hashrate from Chain[11]: (asic index start from 1-18)
Asic[01]=61.8740 Asic[02]=68.2320 Asic[03]=64.0720 Asic[04]=61.3870 Asic[05]=65.5480 Asic[06]=64.5920 Asic[07]=67.2430 Asic[08]=62.3440
Asic[09]=60.3810 Asic[10]=62.7130 Asic[11]=62.0080 Asic[12]=64.7430 Asic[13]=70.0440 Asic[14]=66.1350 Asic[15]=68.2320 Asic[16]=66.3530
Asic[17]=68.1320 Asic[18]=67.8970

get RT hashrate from Chain[12]: (asic index start from 1-18)
Asic[01]=70.7990 Asic[02]=66.6050 Asic[03]=61.6050 Asic[04]=66.3200 Asic[05]=67.2760 Asic[06]=66.5550 Asic[07]=61.9240 Asic[08]=63.6860
Asic[09]=62.8970 Asic[10]=61.2530 Asic[11]=62.6790 Asic[12]=68.4340 Asic[13]=68.3160 Asic[14]=60.4140 Asic[15]=68.1820 Asic[16]=63.9210
Asic[17]=65.1450 Asic[18]=72.3930

get RT hashrate from Chain[13]: (asic index start from 1-18)
Asic[01]=67.0240 Asic[02]=69.0210 Asic[03]=68.0310 Asic[04]=68.1650 Asic[05]=63.2830 Asic[06]=61.0850 Asic[07]=66.5040 Asic[08]=66.1190
Asic[09]=60.9850 Asic[10]=68.1320 Asic[11]=59.4920 Asic[12]=62.7130 Asic[13]=65.4980 Asic[14]=66.0850 Asic[15]=52.2440 Asic[16]=62.7800
Asic[17]=69.2890 Asic[18]=59.3570
Check Chain[J2] ASIC RT error: (asic index start from 1-18)
Check Chain[J3] ASIC RT error: (asic index start from 1-18)
Check Chain[J4] ASIC RT error: (asic index start from 1-18)
Check Chain[J9] ASIC RT error: (asic index start from 1-18)
Check Chain[J10] ASIC RT error: (asic index start from 1-18)
Check Chain[J11] ASIC RT error: (asic index start from 1-18)
Check Chain[J12] ASIC RT error: (asic index start from 1-18)
Check Chain[J13] ASIC RT error: (asic index start from 1-18)
Check Chain[J14] ASIC RT error: (asic index start from 1-18)
Done check_asic_reg
do read temp on Chain[8]
Chain[8] Chip[1] TempTypeID=41 middle offset=32
Chain[8] Chip[1] local Temp=76
Chain[8] Chip[1] middle Temp=99
Special fix Chain[8] Chip[1] middle Temp = 91
Done read temp on Chain[8]
do read temp on Chain[10]
Chain[10] Chip[1] TempTypeID=41 middle offset=35
Chain[10] Chip[1] local Temp=75
Chain[10] Chip[1] middle Temp=90
Special fix Chain[10] Chip[1] middle Temp = 90
Done read temp on Chain[10]
do read temp on Chain[12]
Chain[12] Chip[1] TempTypeID=41 middle offset=32
Chain[12] Chip[1] local Temp=74
Chain[12] Chip[1] middle Temp=85
Special fix Chain[12] Chip[1] middle Temp = 89
Done read temp on Chain[12]
set FAN speed according to: temp_highest=76 temp_top1[PWM_T]=76 temp_top1[TEMP_POS_LOCAL]=76 temp_change=2 fix_fan_steps=0
set full FAN speed...
FAN PWM: 100
read_temp_func Done!
CRC error counter=0
jr. member
Activity: 71
Merit: 2
The 8.8v right now is running the best on the bitmain 1600w PSU.

For the S9i I would try 800Mhz and see what temps your getting should be 90-100c. This will be like a 20% boost

For the 13.5 I would Try 725Mhz.

For the 14th I would try somewhere between 725 and 800mhz and check your hw errors and see what runs best once warmed up.

If your machines power off and don't reboot unplug the psu for a little bit. That means it drew to much power and the psu went into protect mode so lower the frequency if that happens although I have not had that issues with 8.8v only 8.9v and 9v on the 1600w.

Awesome! I will give this a try and report back. Thanks.
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
Download: https://github.com/taserz/S9-Volt-Rocket-Ship/raw/master/bmminer9v
Download: https://github.com/taserz/S9-Volt-Rocket-Ship/raw/master/bmminer880

The first firmware 9 volts. The second 8.8 volts. Right? At what frequencies from 650-800?
Where in the KernelLog it is shown that ASIC start with the right voltage?

The second is 8.8 correct.

800 if you have an s9i 14th/ and possibly s9 version as well.

You got to do some trial an error as I don't have all my machines to play with since they are being hosted so I am having the community help me figure out the best preset for the S9's

I would start at 700Mhz and work your way up. Most people have 725Mh/z work on all S9 models so that might be a good starting point too.
newbie
Activity: 20
Merit: 0
The 8.8v right now is running the best on the bitmain 1600w PSU.

For the S9i I would try 800Mhz and see what temps your getting should be 90-100c. This will be like a 20% boost

For the 13.5 I would Try 725Mhz.

For the 14th I would try somewhere between 725 and 800mhz and check your hw errors and see what runs best once warmed up.

If your machines power off and don't reboot unplug the psu for a little bit. That means it drew to much power and the psu went into protect mode so lower the frequency if that happens although I have not had that issues with 8.8v only 8.9v and 9v on the 1600w.

Download: https://github.com/taserz/S9-Volt-Rocket-Ship/raw/master/bmminer9v
Download: https://github.com/taserz/S9-Volt-Rocket-Ship/raw/master/bmminer880

The first firmware 9 volts. The second 8.8 volts. Right? At what frequencies from 650-800?
Where in the KernelLog it is shown that ASIC start with the right voltage?
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
I have: 2 x S9 14T, 1 x S9 13.5, and 1 x S9i 13.5T. All 4 have the 1600w Bitmain PSUs. What firmware and settings should I use to get about 10% or more performance boost? TIA

The 8.8v right now is running the best on the bitmain 1600w PSU.

For the S9i I would try 800Mhz and see what temps your getting should be 90-100c. This will be like a 20% boost

For the 13.5 I would Try 725Mhz.

For the 14th I would try somewhere between 725 and 800mhz and check your hw errors and see what runs best once warmed up.

If your machines power off and don't reboot unplug the psu for a little bit. That means it drew to much power and the psu went into protect mode so lower the frequency if that happens although I have not had that issues with 8.8v only 8.9v and 9v on the 1600w.
jr. member
Activity: 71
Merit: 2
I have: 2 x S9 14T, 1 x S9 13.5, and 1 x S9i 13.5T. All 4 have the 1600w Bitmain PSUs. What firmware and settings should I use to get about 10% or more performance boost? TIA
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
flagging thread!  also running T9+ im prepared to run/test the script and supply logs if it helps

Can you do me a favor and post a copy of your kernal log of you t9+ running so I can see what it's factory settings are.
member
Activity: 287
Merit: 18
flagging thread!  also running T9+ im prepared to run/test the script and supply logs if it helps
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
taserz mate does this work on the antminer t9+ ?

i dont want to risk bricking my asic if this hasnt been tested on the t9+ before.

please let me know as soon as possible as i have 9 t9+ machines waiting to be overclocked from the disappointingly low 10.5 terra hashes per second

This does not. Although I do plan on building one for the t9+ as well it is difficult since I have no machine to tinker with so I can build and just assume it is stable.
newbie
Activity: 9
Merit: 0
taserz mate does this work on the antminer t9+ ?

i dont want to risk bricking my asic if this hasnt been tested on the t9+ before.

please let me know as soon as possible as i have 9 t9+ machines waiting to be overclocked from the disappointingly low 10.5 terra hashes per second
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
will try the 880 tomorrow and let it run for a 6-7 hours

maybe the autotune are best way to make 13.5 machine run great. because in one unit, three board has a different best frequency

Autotune locks the voltage and gets the best frequency around the stock for efficiency that bitmain locks to it. The boards will have a different best frequency since they are not all created equal. But they should still end up within 10-300gh/s of each other for the most part.

There will be an autotune version being made where you just pick your voltage and it will search for the most stable mhz per board so each board will have a different frequency.
newbie
Activity: 21
Merit: 0
will try the 880 tomorrow and let it run for a 6-7 hours

maybe the autotune are best way to make 13.5 machine run great. because in one unit, three board has a different best frequency
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
taserz, what is the default voltage of s9i? I forgot to mention that one of my 13.5 TH s9i is stable mining at 17 TH with your 8.8v mod. I've changed the original apw7 psu with 2.4 kw HP server psu and ASIC is pulling 2050 w from the wall.

I have to check! I got my first s9i out of a warranty fix and the first thing I did was hack it but I can roll it back tomorrow and check what it defaults at.

I wish I had some of the apw7 since they are 1800w.

It appears the 13.5th/s are probably best to run at 725mhz because anything beyond that they start to draw a LOT of power and the efficiency goes right out the window. For example at 18th your probably doing like .110-.12j/GH which is a 10-20% reduction in efficiency. So yes it is mining faster and drawing more power but it's power draw is no longer .098j/gh.

So far from testing between a few users it looks like the s9i like 17th/s quite well. I need more testing with an s9 14th/s unit but I assume it would be similar to the s9i. The 13.5th unit seems to draw a lot of power once you go beyond 725mh and will start tripping 1600w psu and really anything beyond the 725mhz range it starts to lose a lot on efficiency.
jr. member
Activity: 58
Merit: 5
taserz, what is the default voltage of s9i? I forgot to mention that one of my 13.5 TH s9i is stable mining at 17 TH with your 8.8v mod. I've changed the original apw7 psu with 2.4 kw HP server psu and ASIC is pulling 2050 w from the wall.
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
this is my result. an 13.5T Autotune Firmware flashed with 650M Fixed Firmware, Power Supply are Dell 2100W (first and second) and HP 2450W (third one)

no problem so far, tried to push to 800M with 9V but too much HW Error, some board disappear and reappear again, then disappear again

Cooling are SanAce 12V 4A Fan in Intake and a Antminer S9 Standard 2.7A Fan at Exhaust, using a Flex Duct to separate intake and exhaust

[...]

So it looks like the temp bug affected your third board but it was still mining which is meh okay since it will still clearly mine fine. I have gotten a few reports now on the 13.5 and I am thinking the 13.5 s9 is a bit of a lottery on if it can run at 800Mhz stable or not. If not your best bet is to run it at 725-750 as you did as the hw errors are far less as you saw. You CAN get the 13.5th to run at 800Mhz or more but it would require more than 9volts and honestly anything beyond 9v of power makes the efficiency go to shit why mind 18th at 2.1kw when you can just mine 16.5 at 1600w you know in most cases unless your electricity is very cheap it would just cost more.

Luckily Darval contacted me and is going to assist me with making this have an autotune per each board. So you would set voltage and then it would tune to the best speed for the voltage so if you got a 1600w or 1800w psu you can get the maximum bang for your buck. But I am not C programmer and they are so they are going to be a godsend for me as I am more familiar with python java (meh) matlab r studio afni/

I would suggest trying to run it at 750Mhz.

Also if you would like to try this: https://github.com/taserz/S9-Volt-Rocket-Ship/raw/master/bmminer890

Is 8.9v and it might be worth trying at 750 if 8.8v is throwing to many errors or even beyong 750 since your psu can handle it.
newbie
Activity: 21
Merit: 0
this is my result. an 13.5T Autotune Firmware flashed with 650M Fixed Firmware, Power Supply are Dell 2100W (first and second) and HP 2450W (third one)

no problem so far, tried to push to 800M with 9V but too much HW Error, some board disappear and reappear again, then disappear again

Cooling are SanAce 12V 4A Fan in Intake and a Antminer S9 Standard 2.7A Fan at Exhaust, using a Flex Duct to separate intake and exhaust

https://scontent.fbkk13-1.fna.fbcdn.net/v/t1.0-9/37541992_10211424473625620_3799229350218301440_n.jpg?_nc_cat=0&_nc_eui2=AeHBGKHH5Kte04ryLQZgw74Sbg5t7fF9fOY2eGCFUtFjv5iMdLr8QXRrSN4nxl7HazsYBVJN8eEfLlAl4E9PWAj23nYOGbQcWfvE0bTzhs1dWg&oh=f158c9727e326d373413707e703f4dd8&oe=5BD54C6C

https://scontent.fbkk13-1.fna.fbcdn.net/v/t1.0-9/37568796_10211424474065631_1392267447758749696_n.jpg?_nc_cat=0&_nc_eui2=AeGQSNJ9WoGXwNx2920bvRtotViiJPxLRUhpciUuL7UmEbP51-42-whbuBtx63MVrWmUHkpiZWC02ITMlkPlgGHhbppBOCtIujOlx-bMshb1Gw&oh=116b52a17083c01f7c4b4067cda1ce43&oe=5BDAA4E5

https://scontent.fbkk13-1.fna.fbcdn.net/v/t1.0-9/37634040_10211424474305637_6158869680967647232_n.jpg?_nc_cat=0&_nc_eui2=AeGIKoVMD5FA31ZJjonnKSLMwcZsQv1BT7BB6hVPzeZ8vt_FK2tJaII6Tp3szozZn6Q9CZz0-MP-amo1QvNnHNYJQ_gNNkO72JN-bzKQNpUKjA&oh=2d0a6b70690823393e6baac07108588e&oe=5BCF0D88

AwesomeMiner

https://scontent.fbkk13-1.fna.fbcdn.net/v/t1.0-9/37568260_10211424434264636_9133086404044128256_n.jpg?_nc_cat=0&_nc_eui2=AeEPOTQ7N0-cRE_b7g0i9s5i2SWnXxUQ2s50_2nNxBDDq6Tgv5HU1Cz69aR-KbXIRQJYi2dJHTRe58xLEZpzK2h0VJWODC1uYO-xfxgvUsiXXA&oh=a471e2f4a50426bf350afa510e68171c&oe=5BD71F1F
sr. member
Activity: 799
Merit: 293
Created AutoTune to saved the planet! ~USA
I have found that at 750MHz the miner works best with 9.4 Volts. 8.8 is probably too low.

9.4v is a lot of power draw. Doing 9.4 volts you're drawing a lot more power than I really want to. The point is to keep the voltage low and the hashrate high because if you draw a lot more power the point of mining at a faster speed diminishes because your paying for a lot more electricity. At 9.4v the miners can draw up to 2100 watts of power...
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