miner t17+ | Bitcointalksearch.org

amirheavy666

full member

Activity: 228

Merit: 101

NEM (XEM) Top Coin

Quote from: mikeywith on July 09, 2020, 07:25:30 PM

1- Use the code function when posting the kernel log
2- Don't post twice in a row, simply edit the first post
3- your temps are fine, can be "should be" improved, you can follow my guide and set the fans to 90-100%

What phill explained was why the middle board is hotter, his explanation was right, add to that the fact that sitting in the middle of two boards will have a negative impact on temp which is normal, but why is that one sensor of each board reports a higher temp on all three boards is due to the fact that it's in the middle of the board, the front sensor will be the coolest one because cold air goes to it first, the once at the very back are near the exhaust fans so hot air doesn't stay around them for long, the once in the middle are far from both intake and exhaust and thus they will always be warmer, so nothing is wrong with your miner, you can't change physics.

Thanks philipma1957 & mikeywith.. got it

Pendrak

member

Activity: 208

Merit: 46

Quote from: philipma1957 on July 09, 2020, 06:36:51 PM

[...]

True, i mean chip Temp, the T17 try to maintain the chip temp at 75 °C by default (bitmain original firmware). I don't know about the T17+ thats why i ask if the fans are at 100% with the 80°C chip temp.

mikeywith

legendary

Activity: 2436

Merit: 6643

be constructive or S.T.F.U

1- Use the code function when posting the kernel log
2- Don't post twice in a row, simply edit the first post
3- your temps are fine, can be "should be" improved, you can follow my guide and set the fans to 90-100%

What phill explained was why the middle board is hotter, his explanation was right, add to that the fact that sitting in the middle of two boards will have a negative impact on temp which is normal, but why is that one sensor of each board reports a higher temp on all three boards is due to the fact that it's in the middle of the board, the front sensor will be the coolest one because cold air goes to it first, the once at the very back are near the exhaust fans so hot air doesn't stay around them for long, the once in the middle are far from both intake and exhaust and thus they will always be warmer, so nothing is wrong with your miner, you can't change physics.

philipma1957

legendary

Activity: 4326

Merit: 8950

'The right to privacy matters'

Quote from: Pendrak on July 09, 2020, 05:23:08 PM

[...]

You are wrong. the readings for chips are always higher then the readings for pcb he has great pcb numbers

all under 53 which is far under 75

his chip numbers are also good all under 85

the single chip at 80 can be fixed the way I said or simply do not bother as it is fine.

Pendrak

member

Activity: 208

Merit: 46

The T17 gear fans are configured to maintain the equipment at 75 °C, if he tell me the fans are working at 100% then his equipment have the same configuration as the T17, if the fans are working lets say 70% then that tell me that the configuration for his equipment is 80 °C.

EDIT:

I just visit BITMAIN webepage:

Quote from: Bitmain

T17+ Specifications
Hash rate   64T±5% 61T±5% 58T±5% 55T±5% 52T±5%
No. of chips   132 in total
PCB high temp protection   75 °C

S17/S17 Pro/T17 PCB max. 75
T17e/T17e/S17+ PCB max. 80
T17+ PCB max. 75

My recomendation is install a 3rd party firmware and undervolt the equipment, in that way you can make it working at 75 °C or less, is better be safe. If you dont want to do that just make some upgrades to the miner room (like divide the room, put a active exaust, etc.).

Sorry for my english.

favebook

sr. member

Activity: 604

Merit: 416

Quote from: ?? on ??

[...]

Phil gave you a good answer to this questions. And please, use the code for those big lines of text: [ quote][ /quote] (delete spaces or use chat bubble button when you edit that message).

Quote from: Pendrak on July 09, 2020, 03:05:06 PM

All the fans are at 100%??? please check that first.

Not sure what's there to check, he either manually put them to 100% (doubt this since his/her knowledge is bad about asics according to questions put by him) or more probable reason is that environment temperature is high and you can see that startup temp is already between 54 and 80 due to Chip Warmup that is happening as well (this cannot be disabled on default firmware) therefore, fans should and will ramp up.

Also, T/S17 gear has good fan curve afaik.

Pendrak

member

Activity: 208

Merit: 46

All the fans are at 100%??? please check that first.

philipma1957

legendary

Activity: 4326

Merit: 8950

'The right to privacy matters'

your numbers look fine.

the reason for the 80 is it is the center of the three boards.

the fans have a hub in the center. the the center board runs a tiny bit hotter.

There is a fix I will post it. verbally.

put a spacer in on the fans moving them a little bit away from the boards this will bring better air to the center board.

the best spacer is a cut out old 1 inch fan. as it is free and really does get more air into the center board.

these also work but are costly

https://www.amazon.com/Phobya-Shroud-Decoupling-120mm-4-Pack/dp/B0103MXYA2

I have done a lot of ductwork testing and I recommend cutting an old 1 inch fan center which moves the push fans further from the boards and cools the center better.

I found a source for longer screws that allow this to work.

amirheavy666

full member

Activity: 228

Merit: 101

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Code:

usbcore: registered new interface driver usbfs
usbcore: registered new interface driver hub
usbcore: registered new device driver usb
media: Linux media interface: v0.10
Linux video capture interface: v2.00
pps_core: LinuxPPS API ver. 1 registered
pps_core: Software ver. 5.3.6 - Copyright 2005-2007 Rodolfo Giometti
PTP clock support registered
EDAC MC: Ver: 3.0.0
Advanced Linux Sound Architecture Driver Initialized.
clocksource: Switched to clocksource arm_global_timer
NET: Registered protocol family 2
TCP established hash table entries: 2048 (order: 1, 8192 bytes)
TCP bind hash table entries: 2048 (order: 2, 16384 bytes)
TCP: Hash tables configured (established 2048 bind 2048)
UDP hash table entries: 256 (order: 1, 8192 bytes)
UDP-Lite hash table entries: 256 (order: 1, 8192 bytes)
NET: Registered protocol family 1
RPC: Registered named UNIX socket transport module.
RPC: Registered udp transport module.
RPC: Registered tcp transport module.
RPC: Registered tcp NFSv4.1 backchannel transport module.
PCI: CLS 0 bytes, default 64
Trying to unpack rootfs image as initramfs...
rootfs image is not initramfs (no cpio magic); looks like an initrd
Freeing initrd memory: 12924K (cce62000 - cdb01000)
hw perfevents: enabled with armv7_cortex_a9 PMU driver, 7 counters available
futex hash table entries: 512 (order: 3, 32768 bytes)
workingset: timestamp_bits=28 max_order=16 bucket_order=0
jffs2: version 2.2. (NAND) (SUMMARY) © 2001-2006 Red Hat, Inc.
io scheduler noop registered
io scheduler deadline registered
io scheduler cfq registered (default)
dma-pl330 f8003000.ps7-dma: Loaded driver for PL330 DMAC-241330
dma-pl330 f8003000.ps7-dma: DBUFF-128x8bytes Num_Chans-8 Num_Peri-4 Num_Events-16
e0000000.serial: ttyPS0 at MMIO 0xe0000000 (irq = 158, base_baud = 6249999) is a xuartps
console [ttyPS0] enabled
xdevcfg f8007000.ps7-dev-cfg: ioremap 0xf8007000 to cf86e000
[drm] Initialized drm 1.1.0 20060810
brd: module loaded
loop: module loaded
CAN device driver interface
gpiod_set_value: invalid GPIO
libphy: MACB_mii_bus: probed
macb e000b000.ethernet eth0: Cadence GEM rev 0x00020118 at 0xe000b000 irq 31 (00:0a:35:00:00:00)
Generic PHY e000b000.etherne:00: attached PHY driver [Generic PHY] (mii_bus:phy_addr=e000b000.etherne:00, irq=-1)
e1000e: Intel(R) PRO/1000 Network Driver - 3.2.6-k
e1000e: Copyright(c) 1999 - 2015 Intel Corporation.
ehci_hcd: USB 2.0 'Enhanced' Host Controller (EHCI) Driver
ehci-pci: EHCI PCI platform driver
usbcore: registered new interface driver usb-storage
mousedev: PS/2 mouse device common for all mice
i2c /dev entries driver
Xilinx Zynq CpuIdle Driver started
sdhci: Secure Digital Host Controller Interface driver
sdhci: Copyright(c) Pierre Ossman
sdhci-pltfm: SDHCI platform and OF driver helper
mmc0: SDHCI controller on e0100000.ps7-sdio [e0100000.ps7-sdio] using ADMA
ledtrig-cpu: registered to indicate activity on CPUs
usbcore: registered new interface driver usbhid
usbhid: USB HID core driver
nand: device found, Manufacturer ID: 0x2c, Chip ID: 0xda
nand: Micron MT29F2G08ABAEAWP
nand: 256 MiB, SLC, erase size: 128 KiB, page size: 2048, OOB size: 64
nand: WARNING: pl35x-nand: the ECC used on your system is too weak compared to the one required by the NAND chip
Bad block table found at page 131008, version 0x01
Bad block table found at page 130944, version 0x01
6 ofpart partitions found on MTD device pl35x-nand
Creating 6 MTD partitions on "pl35x-nand":
0x000000000000-0x000002800000 : "BOOT.bin-env-dts-kernel"
0x000002800000-0x000004800000 : "ramfs"
0x000004800000-0x000005000000 : "configs"
0x000005000000-0x000006000000 : "reserve"
0x000006000000-0x000008000000 : "ramfs-bak"
0x000008000000-0x000010000000 : "reserve1"
NET: Registered protocol family 10
sit: IPv6 over IPv4 tunneling driver
NET: Registered protocol family 17
can: controller area network core (rev 20120528 abi 9)
NET: Registered protocol family 29
can: raw protocol (rev 20120528)
can: broadcast manager protocol (rev 20120528 t)
can: netlink gateway (rev 20130117) max_hops=1
zynq_pm_ioremap: no compatible node found for 'xlnx,zynq-ddrc-a05'
zynq_pm_late_init: Unable to map DDRC IO memory.
Registering SWP/SWPB emulation handler
hctosys: unable to open rtc device (rtc0)
ALSA device list:
No soundcards found.
RAMDISK: gzip image found at block 0
EXT4-fs (ram0): couldn't mount as ext3 due to feature incompatibilities
EXT4-fs (ram0): mounted filesystem without journal. Opts: (null)
VFS: Mounted root (ext4 filesystem) on device 1:0.
devtmpfs: mounted
Freeing unused kernel memory: 1024K (c0a00000 - c0b00000)
EXT4-fs (ram0): re-mounted. Opts: block_validity,delalloc,barrier,user_xattr
random: dd urandom read with 0 bits of entropy available
ubi0: attaching mtd2
ubi0: scanning is finished
ubi0: attached mtd2 (name "configs", size 8 MiB)
ubi0: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
ubi0: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
ubi0: VID header offset: 2048 (aligned 2048), data offset: 4096
ubi0: good PEBs: 64, bad PEBs: 0, corrupted PEBs: 0
ubi0: user volume: 1, internal volumes: 1, max. volumes count: 128
ubi0: max/mean erase counter: 33/11, WL threshold: 4096, image sequence number: 262741923
ubi0: available PEBs: 0, total reserved PEBs: 64, PEBs reserved for bad PEB handling: 40
ubi0: background thread "ubi_bgt0d" started, PID 708
UBIFS (ubi0:0): background thread "ubifs_bgt0_0" started, PID 711
UBIFS (ubi0:0): UBIFS: mounted UBI device 0, volume 0, name "configs"
UBIFS (ubi0:0): LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
UBIFS (ubi0:0): FS size: 1396736 bytes (1 MiB, 11 LEBs), journal size 888833 bytes (0 MiB, 5 LEBs)
UBIFS (ubi0:0): reserved for root: 65970 bytes (64 KiB)
UBIFS (ubi0:0): media format: w4/r0 (latest is w4/r0), UUID A9E8BDA4-70DE-45D9-83BE-2DD9F129C0C6, small LPT model
ubi1: attaching mtd5
ubi1: scanning is finished
ubi1: attached mtd5 (name "reserve1", size 128 MiB)
ubi1: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
ubi1: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
ubi1: VID header offset: 2048 (aligned 2048), data offset: 4096
ubi1: good PEBs: 1020, bad PEBs: 4, corrupted PEBs: 0
ubi1: user volume: 1, internal volumes: 1, max. volumes count: 128
ubi1: max/mean erase counter: 80/19, WL threshold: 4096, image sequence number: 3563076859
ubi1: available PEBs: 0, total reserved PEBs: 1020, PEBs reserved for bad PEB handling: 36
ubi1: background thread "ubi_bgt1d" started, PID 720
UBIFS (ubi1:0): background thread "ubifs_bgt1_0" started, PID 723
UBIFS (ubi1:0): UBIFS: mounted UBI device 1, volume 0, name "reserve1"
UBIFS (ubi1:0): LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
UBIFS (ubi1:0): FS size: 123039744 bytes (117 MiB, 969 LEBs), journal size 6221824 bytes (5 MiB, 49 LEBs)
UBIFS (ubi1:0): reserved for root: 4952683 bytes (4836 KiB)
UBIFS (ubi1:0): media format: w4/r0 (latest is w4/r0), UUID A21581E4-693A-4BBF-A66A-FCE5ACD2EF7F, small LPT model
IPv6: ADDRCONF(NETDEV_UP): eth0: link is not ready
IPv6: ADDRCONF(NETDEV_UP): eth0: link is not ready
macb e000b000.ethernet eth0: unable to generate target frequency: 25000000 Hz
macb e000b000.ethernet eth0: link up (100/Full)
IPv6: ADDRCONF(NETDEV_CHANGE): eth0: link becomes ready
In axi fpga driver!
request_mem_region OK!
AXI fpga dev virtual address is 0xcfb34000
*base_vir_addr = 0xb023
In fpga mem driver!
request_mem_region OK!
fpga mem virtual address is 0xd2000000
random: nonblocking pool is initialized
macb e000b000.ethernet eth0: link down
macb e000b000.ethernet eth0: unable to generate target frequency: 25000000 Hz
macb e000b000.ethernet eth0: link up (100/Full)
macb e000b000.ethernet eth0: link down
macb e000b000.ethernet eth0: unable to generate target frequency: 25000000 Hz
macb e000b000.ethernet eth0: link up (100/Full)
2020-07-09 15:11:22 driver-btm-api.c:692:init_freq_mode: This is scan-user version
2020-07-09 15:11:22 driver-btm-api.c:2352:bitmain_soc_init: opt_multi_version = 1
2020-07-09 15:11:22 driver-btm-api.c:2353:bitmain_soc_init: opt_bitmain_ab = 1
2020-07-09 15:11:22 driver-btm-api.c:2354:bitmain_soc_init: opt_bitmain_work_mode = 0
2020-07-09 15:11:22 driver-btm-api.c:2355:bitmain_soc_init: Miner compile time: Fri Feb 7 18:05:08 CST 2020 type: Antminer T17+
2020-07-09 15:11:22 driver-btm-api.c:2356:bitmain_soc_init: commit version: fcabbcc 2020-02-07 13:39:43, build by: lol 2020-02-07 18:17:59
2020-07-09 15:11:22 driver-btm-api.c:1982:show_sn: len:16, 807c250c2b10481c
2020-07-09 15:11:22 driver-btm-api.c:2038:handle_sn_for_factory_mode: read sn success, 807c250c2b10481c
2020-07-09 15:11:22 fan.c:258:front_fan_power_on: Note: front fan is power on!
2020-07-09 15:11:22 fan.c:268:rear_fan_power_on: Note: rear fan is power on!
2020-07-09 15:11:22 driver-btm-api.c:1232:miner_device_init: Detect 256MB control board of XILINX
2020-07-09 15:11:22 driver-btm-api.c:1173:init_fan_parameter: fan_eft : 0 fan_pwm : 0
2020-07-09 15:11:28 driver-btm-api.c:1156:init_miner_version: miner ID : 807c250c2b10481c
2020-07-09 15:11:28 driver-btm-api.c:1162:init_miner_version: FPGA Version = 0xB023
2020-07-09 15:11:33 driver-btm-api.c:744:get_product_id: product_id[0] = 0
2020-07-09 15:11:33 driver-btm-api.c:744:get_product_id: product_id[1] = 0
2020-07-09 15:11:33 driver-btm-api.c:744:get_product_id: product_id[2] = 0
2020-07-09 15:11:33 driver-btm-api.c:775:get_chip_version: chip_version[0] = 1
2020-07-09 15:11:33 driver-btm-api.c:775:get_chip_version: chip_version[1] = 1
2020-07-09 15:11:33 driver-btm-api.c:775:get_chip_version: chip_version[2] = 1
2020-07-09 15:11:33 driver-btm-api.c:2096:update_conf_by_power_feedback: get_calibration_voltage, vol:1850.
2020-07-09 15:11:33 frequency.c:1237:adjust_higer_max_vol_table: adjust_higer_max_vol_table, ideal_hashrate = 56943, index = 23, adjust_vol = 30
2020-07-09 15:11:33 thread.c:1014:create_read_nonce_reg_thread: create thread
2020-07-09 15:11:39 driver-btm-api.c:1156:init_miner_version: miner ID : 807c250c2b10481c
2020-07-09 15:11:39 driver-btm-api.c:1162:init_miner_version: FPGA Version = 0xB023
2020-07-09 15:11:45 driver-btm-api.c:744:get_product_id: product_id[0] = 0
2020-07-09 15:11:45 driver-btm-api.c:744:get_product_id: product_id[1] = 0
2020-07-09 15:11:45 driver-btm-api.c:744:get_product_id: product_id[2] = 0
2020-07-09 15:11:45 driver-btm-api.c:775:get_chip_version: chip_version[0] = 1
2020-07-09 15:11:45 driver-btm-api.c:775:get_chip_version: chip_version[1] = 1
2020-07-09 15:11:45 driver-btm-api.c:775:get_chip_version: chip_version[2] = 1
2020-07-09 15:11:45 driver-btm-api.c:1789:get_ccdly_opt: ccdly_opt[0] = 0
2020-07-09 15:11:45 driver-btm-api.c:1789:get_ccdly_opt: ccdly_opt[1] = 0
2020-07-09 15:11:45 driver-btm-api.c:1789:get_ccdly_opt: ccdly_opt[2] = 0
2020-07-09 15:11:45 driver-btm-api.c:2238:bitmain_board_init: g_ccdly_opt = 0
2020-07-09 15:11:45 driver-btm-api.c:705:_set_project_type: project:0
2020-07-09 15:11:45 driver-btm-api.c:720:_set_project_type: Project type: Antminer T17+
2020-07-09 15:11:45 driver-btm-api.c:731:dump_pcb_bom_version: Chain [0] PCB Version: 0x0100
2020-07-09 15:11:45 driver-btm-api.c:732:dump_pcb_bom_version: Chain [0] BOM Version: 0x0100
2020-07-09 15:11:45 driver-btm-api.c:731:dump_pcb_bom_version: Chain [1] PCB Version: 0x0100
2020-07-09 15:11:45 driver-btm-api.c:732:dump_pcb_bom_version: Chain [1] BOM Version: 0x0100
2020-07-09 15:11:45 driver-btm-api.c:731:dump_pcb_bom_version: Chain [2] PCB Version: 0x0100
2020-07-09 15:11:45 driver-btm-api.c:732:dump_pcb_bom_version: Chain [2] BOM Version: 0x0100
2020-07-09 15:11:46 driver-btm-api.c:2258:bitmain_board_init: Fan check passed.
2020-07-09 15:11:47 board.c:36:jump_and_app_check_restore_pic: chain[0] PIC jump to app
2020-07-09 15:11:49 board.c:40:jump_and_app_check_restore_pic: Check chain[0] PIC fw version=0x88
2020-07-09 15:11:50 board.c:36:jump_and_app_check_restore_pic: chain[1] PIC jump to app
2020-07-09 15:11:52 board.c:40:jump_and_app_check_restore_pic: Check chain[1] PIC fw version=0x88
2020-07-09 15:11:53 board.c:36:jump_and_app_check_restore_pic: chain[2] PIC jump to app
2020-07-09 15:11:55 board.c:40:jump_and_app_check_restore_pic: Check chain[2] PIC fw version=0x88
2020-07-09 15:11:55 thread.c:1009:create_pic_heart_beat_thread: create thread
2020-07-09 15:11:57 power_api.c:229:power_init: power type version: 0x0042
2020-07-09 15:11:57 power_api.c:247:power_init: Power init:
2020-07-09 15:11:57 power_api.c:248:power_init: current_voltage_raw = 0
2020-07-09 15:11:57 power_api.c:249:power_init: highest_voltage_raw = 1950
2020-07-09 15:11:57 power_api.c:250:power_init: working_voltage_raw = 1900
2020-07-09 15:11:57 power_api.c:251:power_init: higher_voltage_raw = 1930
2020-07-09 15:11:57 power_api.c:252:power_init: check_asic_voltage_raw = 2000
2020-07-09 15:11:57 driver-btm-api.c:2268:bitmain_board_init: Enter 30s sleep to make sure power release finish.
2020-07-09 15:11:57 power_api.c:219:power_off: set gpio907 to 1
2020-07-09 15:12:28 power_api.c:204:power_on: set gpio907 to 0
2020-07-09 15:12:29 power_api.c:386:set_to_voltage_by_steps: Set to voltage raw 1850, step by step.
2020-07-09 15:12:47 power_api.c:120:check_voltage_multi: retry time: 0
2020-07-09 15:12:48 power_api.c:56:_get_avg_voltage: an6 raw = 2.519355, factor = 1.007742
2020-07-09 15:12:48 power_api.c:60:_get_avg_voltage: chain 0, an0 = 0.632522, an2 18.732394, an6 2.500000.
2020-07-09 15:12:49 power_api.c:56:_get_avg_voltage: an6 raw = 2.519355, factor = 1.007742
2020-07-09 15:12:49 power_api.c:60:_get_avg_voltage: chain 1, an0 = 0.559539, an2 18.708066, an6 2.500000.
2020-07-09 15:12:50 power_api.c:56:_get_avg_voltage: an6 raw = 2.541935, factor = 1.016774
2020-07-09 15:12:50 power_api.c:60:_get_avg_voltage: chain 2, an0 = 0.651015, an2 18.686548, an6 2.500000.
2020-07-09 15:12:50 power_api.c:85:_get_avg_voltage: average_voltage = 18.709002
2020-07-09 15:12:50 power_api.c:106:check_voltage: target_vol = 18.50, actural_vol = 18.71, check voltage passed.
2020-07-09 15:12:52 power_api.c:56:_get_avg_voltage: an6 raw = 2.522581, factor = 1.009032
2020-07-09 15:12:52 power_api.c:60:_get_avg_voltage: chain 0, an0 = 0.631714, an2 18.684143, an6 2.500000.
2020-07-09 15:12:54 power_api.c:56:_get_avg_voltage: an6 raw = 2.516129, factor = 1.006452
2020-07-09 15:12:54 power_api.c:60:_get_avg_voltage: chain 1, an0 = 0.560256, an2 18.732052, an6 2.500000.
2020-07-09 15:12:55 power_api.c:56:_get_avg_voltage: an6 raw = 2.541935, factor = 1.016774
2020-07-09 15:12:55 power_api.c:60:_get_avg_voltage: chain 2, an0 = 0.651015, an2 18.662436, an6 2.500000.
2020-07-09 15:12:55 power_api.c:85:_get_avg_voltage: average_voltage = 18.692877
2020-07-09 15:12:55 power_api.c:106:check_voltage: target_vol = 18.50, actural_vol = 18.69, check voltage passed.
2020-07-09 15:12:55 uart.c:80:set_baud: set fpga_baud = 115200, fpga_divider = 26
2020-07-09 15:13:04 driver-btm-api.c:1066:check_asic_number_with_power_on: Chain[0]: find 44 asic, times 0
2020-07-09 15:13:13 driver-btm-api.c:1066:check_asic_number_with_power_on: Chain[1]: find 44 asic, times 0
2020-07-09 15:13:22 driver-btm-api.c:1066:check_asic_number_with_power_on: Chain[2]: find 44 asic, times 0
2020-07-09 15:13:27 driver-btm-api.c:355:set_order_clock: chain[0]: set order clock, stragegy 3 clock_en=0x1
2020-07-09 15:13:27 driver-btm-api.c:355:set_order_clock: chain[1]: set order clock, stragegy 3 clock_en=0x1
2020-07-09 15:13:27 driver-btm-api.c:355:set_order_clock: chain[2]: set order clock, stragegy 3 clock_en=0x1
2020-07-09 15:13:27 driver-btm-api.c:1777:get_core_clock_delay_setting: PWTH_SEL 3, CCDLY_SEL 0
2020-07-09 15:13:27 driver-hash-chip.c:502:set_clock_delay_control: core_data = 0x34
2020-07-09 15:13:27 uart.c:80:set_baud: set fpga_baud = 6000000, fpga_divider = 3
2020-07-09 15:13:27 driver-btm-api.c:1816:check_clock_counter: freq 50 clock_counter_limit 6
2020-07-09 15:13:28 uart.c:80:set_baud: set fpga_baud = 115200, fpga_divider = 26
2020-07-09 15:13:28 voltage[0] = 1790
2020-07-09 15:13:28 voltage[1] = 1790
2020-07-09 15:13:28 voltage[2] = 1790
2020-07-09 15:13:28 power_api.c:260:set_working_voltage_raw: working_voltage_raw = 1790
2020-07-09 15:13:29 temperature.c:307:calibrate_temp_sensor_one_chain: Temperature sensor calibration: chain 0 success. NCT218
2020-07-09 15:13:30 temperature.c:307:calibrate_temp_sensor_one_chain: Temperature sensor calibration: chain 1 success. NCT218
2020-07-09 15:13:32 temperature.c:307:calibrate_temp_sensor_one_chain: Temperature sensor calibration: chain 2 success. NCT218
2020-07-09 15:13:32 uart.c:80:set_baud: set fpga_baud = 6000000, fpga_divider = 3
2020-07-09 15:13:33 driver-btm-api.c:255:check_bringup_temp: Bring up temperature is 23
2020-07-09 15:13:33 thread.c:1029:create_check_miner_status_thread: create thread
2020-07-09 15:13:33 thread.c:1019:create_set_miner_status_thread: create thread
2020-07-09 15:13:33 driver-btm-api.c:642:calculate_timeout: dev->timeout = 245
2020-07-09 15:13:33 thread.c:999:create_temperature_monitor_thread: create thread
2020-07-09 15:13:33 frequency.c:459:check_bringup_temp_dec_freq: dec freq = 0 when bringup temp = 23 dec_freq_index=2
2020-07-09 15:13:33 freq_tuning.c:181:freq_tuning_get_max_freq: Max freq of tuning is 790
2020-07-09 15:13:33 frequency.c:1096:inc_freq_with_fixed_step: chain = 255, freq_start = 50, freq_end = 625, freq_step = 5, is_higher_voltage = true
2020-07-09 15:13:33 power_api.c:386:set_to_voltage_by_steps: Set to voltage raw 1870, step by step.
2020-07-09 15:13:54 power_api.c:120:check_voltage_multi: retry time: 0
2020-07-09 15:13:55 power_api.c:56:_get_avg_voltage: an6 raw = 2.525806, factor = 1.010323
2020-07-09 15:13:55 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.878673, an2 18.854407, an6 2.500000.
2020-07-09 15:13:56 power_api.c:56:_get_avg_voltage: an6 raw = 2.522581, factor = 1.009032
2020-07-09 15:13:56 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.805627, an2 18.854220, an6 2.500000.
2020-07-09 15:13:57 power_api.c:56:_get_avg_voltage: an6 raw = 2.548387, factor = 1.019355
2020-07-09 15:13:57 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.807596, an2 18.807596, an6 2.500000.
2020-07-09 15:13:57 power_api.c:85:_get_avg_voltage: average_voltage = 18.838741
2020-07-09 15:13:57 power_api.c:106:check_voltage: target_vol = 18.70, actural_vol = 18.84, check voltage passed.
2020-07-09 15:14:00 power_api.c:56:_get_avg_voltage: an6 raw = 2.525806, factor = 1.010323
2020-07-09 15:14:00 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.878673, an2 18.854407, an6 2.500000.
2020-07-09 15:14:01 power_api.c:56:_get_avg_voltage: an6 raw = 2.522581, factor = 1.009032
2020-07-09 15:14:01 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.805627, an2 18.854220, an6 2.500000.
2020-07-09 15:14:02 power_api.c:56:_get_avg_voltage: an6 raw = 2.548387, factor = 1.019355
2020-07-09 15:14:02 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.807596, an2 18.807596, an6 2.500000.
2020-07-09 15:14:02 power_api.c:85:_get_avg_voltage: average_voltage = 18.838741
2020-07-09 15:14:02 power_api.c:106:check_voltage: target_vol = 18.70, actural_vol = 18.84, check voltage passed.
2020-07-09 15:15:02 power_api.c:386:set_to_voltage_by_steps: Set to voltage raw 1850, step by step.
2020-07-09 15:15:20 power_api.c:120:check_voltage_multi: retry time: 0
2020-07-09 15:15:21 power_api.c:56:_get_avg_voltage: an6 raw = 2.525806, factor = 1.010323
2020-07-09 15:15:21 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.684548, an2 18.660282, an6 2.500000.
2020-07-09 15:15:22 power_api.c:56:_get_avg_voltage: an6 raw = 2.525806, factor = 1.010323
2020-07-09 15:15:22 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.563220, an2 18.636016, an6 2.500000.
2020-07-09 15:15:24 power_api.c:56:_get_avg_voltage: an6 raw = 2.551613, factor = 1.020645
2020-07-09 15:15:24 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.591656, an2 18.591656, an6 2.500000.
2020-07-09 15:15:24 power_api.c:85:_get_avg_voltage: average_voltage = 18.629318
2020-07-09 15:15:24 power_api.c:106:check_voltage: target_vol = 18.50, actural_vol = 18.63, check voltage passed.
2020-07-09 15:15:26 power_api.c:56:_get_avg_voltage: an6 raw = 2.525806, factor = 1.010323
2020-07-09 15:15:26 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.660282, an2 18.636016, an6 2.500000.
2020-07-09 15:15:27 power_api.c:56:_get_avg_voltage: an6 raw = 2.525806, factor = 1.010323
2020-07-09 15:15:27 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.563220, an2 18.636016, an6 2.500000.
2020-07-09 15:15:28 power_api.c:56:_get_avg_voltage: an6 raw = 2.551613, factor = 1.020645
2020-07-09 15:15:28 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.591656, an2 18.591656, an6 2.500000.
2020-07-09 15:15:28 power_api.c:85:_get_avg_voltage: average_voltage = 18.621229
2020-07-09 15:15:28 power_api.c:106:check_voltage: target_vol = 18.50, actural_vol = 18.62, check voltage passed.
2020-07-09 15:18:09 power_api.c:386:set_to_voltage_by_steps: Set to voltage raw 1830, step by step.
2020-07-09 15:18:27 power_api.c:120:check_voltage_multi: retry time: 0
2020-07-09 15:18:28 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:18:28 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.394905, an2 18.370702, an6 2.500000.
2020-07-09 15:18:29 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:18:29 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.322294, an2 18.394905, an6 2.500000.
2020-07-09 15:18:30 power_api.c:56:_get_avg_voltage: an6 raw = 2.561290, factor = 1.024516
2020-07-09 15:18:30 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.329976, an2 18.353905, an6 2.500000.
2020-07-09 15:18:30 power_api.c:85:_get_avg_voltage: average_voltage = 18.373170
2020-07-09 15:18:30 power_api.c:106:check_voltage: target_vol = 18.30, actural_vol = 18.37, check voltage passed.
2020-07-09 15:18:33 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:18:33 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.394905, an2 18.394905, an6 2.500000.
2020-07-09 15:18:34 power_api.c:56:_get_avg_voltage: an6 raw = 2.529032, factor = 1.011613
2020-07-09 15:18:34 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.321428, an2 18.394133, an6 2.500000.
2020-07-09 15:18:35 power_api.c:56:_get_avg_voltage: an6 raw = 2.561290, factor = 1.024516
2020-07-09 15:18:35 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.306046, an2 18.329976, an6 2.500000.
2020-07-09 15:18:35 power_api.c:85:_get_avg_voltage: average_voltage = 18.373004
2020-07-09 15:18:35 power_api.c:106:check_voltage: target_vol = 18.30, actural_vol = 18.37, check voltage passed.
2020-07-09 15:18:45 frequency.c:1096:inc_freq_with_fixed_step: chain = 0, freq_start = 625, freq_end = 640, freq_step = 5, is_higher_voltage = true
2020-07-09 15:18:51 frequency.c:1096:inc_freq_with_fixed_step: chain = 1, freq_start = 625, freq_end = 640, freq_step = 5, is_higher_voltage = true
2020-07-09 15:18:57 frequency.c:1096:inc_freq_with_fixed_step: chain = 0, freq_start = 640, freq_end = 640, freq_step = 5, is_higher_voltage = true
2020-07-09 15:18:57 frequency.c:1096:inc_freq_with_fixed_step: chain = 1, freq_start = 640, freq_end = 640, freq_step = 5, is_higher_voltage = true
2020-07-09 15:18:57 power_api.c:386:set_to_voltage_by_steps: Set to voltage raw 1820, step by step.
2020-07-09 15:19:15 power_api.c:120:check_voltage_multi: retry time: 0
2020-07-09 15:19:17 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:19:17 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.298090, an2 18.273886, an6 2.500000.
2020-07-09 15:19:18 power_api.c:56:_get_avg_voltage: an6 raw = 2.529032, factor = 1.011613
2020-07-09 15:19:18 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.200255, an2 18.272959, an6 2.500000.
2020-07-09 15:19:19 power_api.c:56:_get_avg_voltage: an6 raw = 2.561290, factor = 1.024516
2020-07-09 15:19:19 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.210328, an2 18.210328, an6 2.500000.
2020-07-09 15:19:19 power_api.c:85:_get_avg_voltage: average_voltage = 18.252391
2020-07-09 15:19:19 power_api.c:106:check_voltage: target_vol = 18.20, actural_vol = 18.25, check voltage passed.
2020-07-09 15:19:21 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:19:21 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.273886, an2 18.273886, an6 2.500000.
2020-07-09 15:19:22 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:19:22 power_api.c:60:_get_avg_voltage: chain 1, an0 = 18.201275, an2 18.298090, an6 2.500000.
2020-07-09 15:19:24 power_api.c:56:_get_avg_voltage: an6 raw = 2.561290, factor = 1.024516
2020-07-09 15:19:24 power_api.c:60:_get_avg_voltage: chain 2, an0 = 18.210328, an2 18.234258, an6 2.500000.
2020-07-09 15:19:24 power_api.c:85:_get_avg_voltage: average_voltage = 18.268744
2020-07-09 15:19:24 power_api.c:106:check_voltage: target_vol = 18.20, actural_vol = 18.27, check voltage passed.
2020-07-09 15:19:24 frequency.c:936:inc_asic_diff_freq_by_steps: chain = 0, start = 640, freq_step = 5
2020-07-09 15:19:26 frequency.c:936:inc_asic_diff_freq_by_steps: chain = 1, start = 640, freq_step = 5
2020-07-09 15:19:27 frequency.c:936:inc_asic_diff_freq_by_steps: chain = 2, start = 625, freq_step = 5
2020-07-09 15:19:29 driver-btm-api.c:673:set_timeout: freq 660 final timeout=111
2020-07-09 15:19:29 power_api.c:344:set_to_working_voltage_by_steps: Set to voltage raw 1790, step by step.
2020-07-09 15:19:47 power_api.c:120:check_voltage_multi: retry time: 0
2020-07-09 15:19:48 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:19:48 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.031848, an2 18.007644, an6 2.500000.
2020-07-09 15:19:49 power_api.c:56:_get_avg_voltage: an6 raw = 2.529032, factor = 1.011613
2020-07-09 15:19:49 power_api.c:60:_get_avg_voltage: chain 1, an0 = 17.933673, an2 18.030612, an6 2.500000.
2020-07-09 15:19:50 power_api.c:56:_get_avg_voltage: an6 raw = 2.561290, factor = 1.024516
2020-07-09 15:19:50 power_api.c:60:_get_avg_voltage: chain 2, an0 = 17.923175, an2 17.947104, an6 2.500000.
2020-07-09 15:19:50 power_api.c:85:_get_avg_voltage: average_voltage = 17.995120
2020-07-09 15:19:50 power_api.c:106:check_voltage: target_vol = 17.90, actural_vol = 18.00, check voltage passed.
2020-07-09 15:19:52 power_api.c:56:_get_avg_voltage: an6 raw = 2.532258, factor = 1.012903
2020-07-09 15:19:52 power_api.c:60:_get_avg_voltage: chain 0, an0 = 18.007644, an2 17.983440, an6 2.500000.
2020-07-09 15:19:53 power_api.c:56:_get_avg_voltage: an6 raw = 2.529032, factor = 1.011613
2020-07-09 15:19:53 power_api.c:60:_get_avg_voltage: chain 1, an0 = 17.933673, an2 18.030612, an6 2.500000.
2020-07-09 15:19:54 power_api.c:56:_get_avg_voltage: an6 raw = 2.561290, factor = 1.024516
2020-07-09 15:19:54 power_api.c:60:_get_avg_voltage: chain 2, an0 = 17.947104, an2 17.971033, an6 2.500000.
2020-07-09 15:19:54 power_api.c:85:_get_avg_voltage: average_voltage = 17.995028
2020-07-09 15:19:54 power_api.c:106:check_voltage: target_vol = 17.90, actural_vol = 18.00, check voltage passed.
2020-07-09 15:19:54 thread.c:1024:create_check_system_status_thread: create thread
2020-07-09 15:19:54 driver-btm-api.c:2523:bitmain_soc_init: Init done!
2020-07-09 15:19:54 driver-btm-api.c:208:set_miner_status: STATUS_INIT
2020-07-09 15:19:59 driver-btm-api.c:208:set_miner_status: STATUS_OKAY
2020-07-09 15:20:00 frequency.c:297:get_sale_hash_rate_GH: g_sale_hash_rate = 55000
2020-07-09 15:20:04 driver-btm-api.c:1414:dhash_chip_send_job: Version num 4
2020-07-09 15:50:05 thread.c:230:calc_hashrate_avg: avg rate is 56740.91 in 30 mins
2020-07-09 15:50:05 temperature.c:523:temp_statistics_show: pcb temp 31~57 chip temp 54~80
2020-07-09 16:20:06 thread.c:230:calc_hashrate_avg: avg rate is 56834.13 in 30 mins
2020-07-09 16:20:06 temperature.c:523:temp_statistics_show: pcb temp 32~57 chip temp 54~80
2020-07-09 16:50:08 thread.c:230:calc_hashrate_avg: avg rate is 56769.84 in 30 mins
2020-07-09 16:50:08 temperature.c:523:temp_statistics_show: pcb temp 30~57 chip temp 53~80
2020-07-09 17:20:09 thread.c:230:calc_hashrate_avg: avg rate is 56959.83 in 30 mins
2020-07-09 17:20:09 temperature.c:523:temp_statistics_show: pcb temp 31~57 chip temp 53~80
2020-07-09 17:50:11 thread.c:230:calc_hashrate_avg: avg rate is 56875.63 in 30 mins
2020-07-09 17:50:11 temperature.c:523:temp_statistics_show: pcb temp 32~57 chip temp 54~80
2020-07-09 18:20:12 thread.c:230:calc_hashrate_avg: avg rate is 56627.60 in 30 mins
2020-07-09 18:20:12 temperature.c:523:temp_statistics_show: pcb temp 31~57 chip temp 54~80

Quote from: favebook on July 09, 2020, 01:00:41 PM

[...]

Thanks ...

Chain# ASIC# Frequency GH/S(RT) HW Temp(PCB) Temp(Chip) ASIC status
1 44 647 19351.40 25 35-57-34-55 57-78-55-74 oooooooo oooooooo oooooooo
2 44 643 19043.54 24 34-56-33-52 58-80-56-74 oooooooo oooooooo oooooooo
3 44 636 19461.36 4 34-54-32-52 55-74-54-69 oooooooo oooooooo oooooooo

I just want to know why one temp chip is higher than other Huh

red colores.

favebook

sr. member

Activity: 604

Merit: 416

Not sure why are you asking... Do you have any problems with machine? It turns off? Drops hashrate? Anything?

That part of logs ain't really helpful, you should put whole logs if you have any problems.

Temps are a bit higher but since it's July that is understandable. I run mine up to 86 C as above that they usually get damaged since soldering is very bad on those machines.

amirheavy666

full member

Activity: 228

Merit: 101

NEM (XEM) Top Coin

I bought a new t17+ and the mining status is under below? is it good? I think the temp of chips is up? is it normal or miner have a problem Huh

Thanks.

Code:

Chain# ASIC# Frequency GH/S(RT) HW Temp(PCB) Temp(Chip) ASIC status
1 44 647 19351.40 25 35-57-34-55 57-78-55-74 oooooooo oooooooo oooooooo oooooooo oooooooo oooo
2 44 643 19043.54 24 34-56-33-52 58-80-56-74 oooooooo oooooooo oooooooo oooooooo oooooooo oooo
3 44 636 19461.36 4 34-54-32-52 55-74-54-69 oooooooo oooooooo oooooooo oooooooo oooooooo oooo

other information kernelLog

Code:

2020-07-09 15:19:54 power_api.c:85:_get_avg_voltage: average_voltage = 17.995028
2020-07-09 15:19:54 power_api.c:106:check_voltage: target_vol = 17.90, actural_vol = 18.00, check voltage passed.
2020-07-09 15:19:54 thread.c:1024:create_check_system_status_thread: create thread
2020-07-09 15:19:54 driver-btm-api.c:2523:bitmain_soc_init: Init done!
2020-07-09 15:19:54 driver-btm-api.c:208:set_miner_status: STATUS_INIT
2020-07-09 15:19:59 driver-btm-api.c:208:set_miner_status: STATUS_OKAY
2020-07-09 15:20:00 frequency.c:297:get_sale_hash_rate_GH: g_sale_hash_rate = 55000
2020-07-09 15:20:04 driver-btm-api.c:1414:dhash_chip_send_job: Version num 4
2020-07-09 15:50:05 thread.c:230:calc_hashrate_avg: avg rate is 56740.91 in 30 mins
2020-07-09 15:50:05 temperature.c:523:temp_statistics_show: pcb temp 31~57 chip temp 54~80

Topic: miner t17+ (Read 245 times)