So first off, create a Bitmain support ticket so that if you do not find the info you are looking for they can start to point you in the right direction. I do not have one of these miners, nor have I mined this algo. Could be a firmware issue or maybe a bad control board; I don't get why out of the blue it is performing factory resets... Can you confirm that everything goes back to the defaults that were there when you first booted the miner?
Last but definitely NOT least, stop mining on Antpool and move over to Kano.is, Slushpool,
I completely agree. It's bad enough that you bought Bitmain's ASIC crap and now you're still mining with them at Antpool (which is less profitable!). Kano.is or any other pool is highly recommended over that.
While I think the recommendations are excellent; this advice only relates to mining BTC; except I think Slush also mines ZEC I can't remember haven't been there in a while. But OP may want to shop around for a different pool, make sure you explore all avenues to maximize your earned coins. |
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Hey there, I didn't Merit the post you submitted as some of the info had already been shared earlier in the thread. For that post I would also look at trimming quotes a bit, just makes things easier to read. I did however go through your post history, and I like what I saw. You are an active member you try to help when you can, how you can; while also just having discussions here and there. So I found this post and decided to give it 1 Merit Keep doing what you are doing. |
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Can you show proof of ownership, generally a photo of the units with a handwritten not in the picture that includes your forum username and the date.
You will also need to specify a price per unit/open to offers.
Will you be accepting forum escrow/paypal/ local pick up
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I awarded your post 1 Merit as it was on topic, and provided a possible solution to OP's mining issue. It turned out to be something else all together but without people such as yourself providing starting points a problem may never be solved. Keep up the good work. |
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so i finally have everything i need to get my 841 working
...and it wont hash
HELP!!!
i am so disappointed, i hope its me
Hey man sorry to hear. If you want to post in the bitcoin>mining>support, or in this thread, someone will be able to help you troubleshoot through everything. The linked thread is a troubleshooting/setup guide by Haggsfin he was trained at the Canaan head office. Wherever you post give as much info as possible. Starting from how you are powering the Pi, right up to the colour you see on the 841 as well as the AUC. Info like your power supply and voltage of the circuit are good to have as well. Good luck Edit: Just don't want to gum up the pool thread; Mine On |
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Still looking for deserving posts to Merit... If I don't find any by Sunday the 28th. I'll close the thread and move on.
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People keep coming here pleading because they think of this Forum as a business where; "Cheryll" can call the manager and cry and scream about how they were mistreated or it was a mistake and this needs to be rectified.
Problem is this is not a business or a school where someone is there to hold your hand and make sure you will be okay or taken care of. This isn't even a democracy. There are rules in place to mold this forum into what Theymos wants it to be. There are people appointed to enforce those rules to the best of their abilities. Is it perfect no, but it works and is an example of my way or the highway. Anyone who has a problem can just go away.
Rant on a random thread over lol.
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Just taking a cursory glance at your banned accounts posts I'm going to guess it was copy/pasting that got you the ban... Odds are you will need to take this as a learning experience and go elsewhere. If not a permaban: To be honest you aren't that far in; so is this your second/third or maybe an alt account? Not sure if you were hit with a permaban or a temporary one, but whatever it was I'm sure it came with good reason. So Hi moderators, Good day!
I will go on rules forum and read all of the content and follow the rules now on , to verify my wrong action.
I'll promise i will do the rules and read it carefully before taking actions.
Do these anyways you should have in the first place. This way you won't lose out on your bounty income next time. Editted: In blue, thanks for the info fermasyst,  |
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This user copy pasted most of this post directly from this siteReported OP to MODS as plagiarism; just want to be sure. Initial Coin Offerings, also known as ICOs is the cryptocurrency version of crowdfunding and are a part of the crypto world that is most likely here to stay. It's one of the easiest and most efficient methods for companies and individuals to fund their projects and for regular users to invest in projects they see value in. ICO investors benefit from the opportunity to create significant amounts of profit while supporting the development of disruptive decentralized platforms.
Signs of an ICO Scam
* Poor Presence
One of the essential elements to consider when assessing a potential ICO scam is the individuals behind it. A robust initial coin offering will present potential investors with a detailed team breakdown, listing founders, developers, advisors, security experts, and anybody else associated with the project.
* Guaranteed Profits
Of all the red flags that identify a potential fraud ICO, guaranteed profits are the most obvious. There are no certainties in the blockchain ecosystem, and no proven, reliable, or guaranteed methods of generating profits.
* No White Paper, Bad White Papers, or Blatantly Plagiarized White Papers
A white paper is the most important element of any initial coin offering. In a white paper, an ICO will present an outline of what it plans to achieve, a breakdown of how the technical aspects of the platform function, and delineate its token distribution model.
* Shady Premines
Premining is a common practice in the initial coin offering ecosystem that refers to tokens that are made available to a small group of individuals before the project or crowdsale goes live.
* No Roadmap / Unrealistic Roadmaps
Moreover, if the roadmap includes plans of using ICO capital to develop a prototype or makes any references to future token price, it’s probably a scam.
* Too Good
If an ICO appears to be too good to be true, it probably is. Maintaining a skeptical perspective when assessing initial coin offerings will help you to avoid getting scammed.
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So I went through your post. It was on page 8 so I felt I had to dig deeper and then read the OP. He wasn't really asking a question for advice; more giving a statement and asking what do you do. I felt you were fairly articulate and had decent points so I decided to go through your history and find a post worth meriting. Here's the problem Initial Coin Offerings, also known as ICOs is the cryptocurrency version of crowdfunding and are a part of the crypto world that is most likely here to stay. It's one of the easiest and most efficient methods for companies and individuals to fund their projects and for regular users to invest in projects they see value in. ICO investors benefit from the opportunity to create significant amounts of profit while supporting the development of disruptive decentralized platforms.
Signs of an ICO Scam
* Poor Presence
One of the essential elements to consider when assessing a potential ICO scam is the individuals behind it. A robust initial coin offering will present potential investors with a detailed team breakdown, listing founders, developers, advisors, security experts, and anybody else associated with the project.
* Guaranteed Profits
Of all the red flags that identify a potential fraud ICO, guaranteed profits are the most obvious. There are no certainties in the blockchain ecosystem, and no proven, reliable, or guaranteed methods of generating profits.
* No White Paper, Bad White Papers, or Blatantly Plagiarized White Papers
A white paper is the most important element of any initial coin offering. In a white paper, an ICO will present an outline of what it plans to achieve, a breakdown of how the technical aspects of the platform function, and delineate its token distribution model.
* Shady Premines
Premining is a common practice in the initial coin offering ecosystem that refers to tokens that are made available to a small group of individuals before the project or crowdsale goes live.
* No Roadmap / Unrealistic Roadmaps
Moreover, if the roadmap includes plans of using ICO capital to develop a prototype or makes any references to future token price, it’s probably a scam.
* Too Good
If an ICO appears to be too good to be true, it probably is. Maintaining a skeptical perspective when assessing initial coin offerings will help you to avoid getting scammed.
This post is a copy/paste from this site. While you didn't copy paste the whole thing it is clear you copied their information and tried to pass it off as your own without citing sources. Reported to Admins |
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*snip* What worries me most is a 1984-style scenario where the game is constructed such that even the people "in charge" can't escape.
The worst part about that is how freely the majority of the world has taken steps towards this scenario by choice. I fell into an interesting generation where I can still see the technological "progress" for what it is and is not. I can also admit that *life has gotten in the way a bit and I have only recently began focusing more on what information I want to share with the world and what I do not. I assume anything I put out there is in fact available to anyone at anytime. The simplest example to me currently has been the way I am now targeted by every Crypto ad, or GPU rig component ad, every time I open a site. The same was being done with targeted political messaging/propaganda; so I feel society needs to be educated on the value of finding that tiny space in your life that is out of sight and sound of the screen. Without that space it is hard to tune out the terrible atrocities committed by Eurasia and Eastasia. If someone is in charge, then there's some hope, since I think that almost everyone is at least a little decent, and even most tyrants would not want to completely crush all freedom and virtue.
One would hope so but there have been times when these Tyrants or Kings have also suffered from delusions or mental illness. Untreated and unchecked all bets are off. Thanks to my wife I learned a decent amount about Henry the 8th; you could wonder how this man showed love or compassion and still acted with such indifference. More recently I look at North Korea; and am supposed to see this new side of Kim Jong Un because he released the video of a terrible bus accident and was said to have uncontrollable grief. I would like to believe that, truly, but I would also like to think if that was possible he is looking back at his past and the grief is also remorse. Perhaps it will be an opportunity for freedom and virtue to make a comeback. But with technology, I could see humanity trapping itself utterly in some perpetual machine with no freedom or progress of any kind.
* We already have a trap that is going to assist in leading us there; and it has infiltrated crypto almost like the little brother that tags along. It's credit, the simplest way to keep people in line and focused away from progress or the world outside their bubble; is to have them indebted. Then when you add the layers of technology and data mining to that a person has lost all their secrets before they thought to ask "why". Going over all of this I feel we are disturbingly close to your point. If someone stands out and is in some way different they can be known within hours across the globe. Thanks to smartphones we have given whatever agency or corporation wants it; access to an all seeing eye. With that system in place when someone/thing has their moment, it will not be noticed by the masses but their will be a gradual change and we can only hope enough people are aware of it. This is when I like to think self preservation or even the preservation of a cause finds it's here; the ones that despite the possibility of failure try what needs to be done.
I would prefer to be utterly wrong in my analysis of this probable future.
I would like to as well. I enjoyed the Agentofcoin read the first time I saw it thanks for the refresher. I plan to spend a few nights reading through your SIG. |
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Hi I reviewed your post. It has already received Merit. I'm also not really interested in Meriting posts that have to do with bounty or signature campaigns. I tried to read back through your other posts but the majority of them were very long bounty threads, and unfortunately the others I didn't understand. You do seem to be gaining Merit though so best of luck. |
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I'll leave this thread open for a few more days.
Remember if you were helpful but not necessarily within what I'm looking for you may still be awarded Merit.
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There is a chance, too many of them actually being announced in this forum. even if you start over with Bitcoin mining, you'd increase the mining difficulty as soon as the second miner starts mining.
Your right difficulty would skyrocket in any coin globally adopted and introduced. I feel that would be what drives that financial systems pricing and value as well as inflation. My point was that everyone would be on a somewhat leveled playing field. Anyone currently wealthy would obviously still be able to secure a greater share of the networks hashing power; thus i guess restarting the cycles
Is it really that hard? if Billions of dollars being freely transferred every day is not breaking the cycle I don't know what else could be considered to be a cycle breaker.
In the current form the cryptocurrency market is a secondary financial ecosystem. Comparable to something like Disney land bucks; not sure if they exist never been. The billions of dollars have value and are available for trade and barter because we within the system give it value. So until the system stops equatting it to say a USD value; it's more of a disruption to the norms of the financial and taxation systems than anything. EDIT: Edited spelling errors and autocorrect |
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Thank you for this, it's not often I find myself reading anything insightful these days.
Also thank you to diagaran for posting a link to this thread.
I do often find myself tuning out the realities of the world we live in, not so much for the blissful ignorance but to give myself a break. I think if you look around the world today you can find almost every one of the 7 stages currently taking place. Unfortunately (my view) mob rule appears to be the one sticking out the most in my mind. This is mostly due to the fact that under democracy everyone's voice is supposed to carry equal weight. Unfortunately with that equal weight their is not the same onus on being equally informed. You can ask 10 people to weigh in on a serious political discussion and you'd be lucky to find 2 that have enough information or awareness to be informed.
Sadly you could ask the same 10 people something about big brother/kardashians/random pop culture icon flavor of the month; and the majority will be more engaged than they have been about any political or society related issue ever. Regardless of views on governments I currently live within a democracy bordering on a slide towards mob rule; in the form of populism based on fear mongering. While my country is not as bad as some I find myself having a harder time conducting serious conversations with people who have cherry picked their facts from random sites on the internet.
To go back to topic a little more I myself feel we will see less and less of the cycle reverting to Monarchy and Kingship unless, we have an extinction class event; man made(most likely) or not. I do believe that we have more so done mini cycles going from a MOB rule to Tyranny and then transitioning into aristocracy. The early days may have the feel of Monarchy and Kingship but I think in most cases this is a short lived period.
In regards to Crypto being able to break the cycles; it's hard to say. This cycle was born out of human nature and we are still a factor in the Crypto ecosystem. We already have people claiming the virtuous path and trying to gear Bitcoin to their vision. There is already large amounts of consolidated wealth that grows larger by the day. The reason I don't feel that Crypto in it's current form will break the cycle is that not enough of society has adopted it at it's inception. If when the world has universally adopted Crypto a coin is launched with everyone having access to it in the beginning there may be a chance. Although I feel we will just create a new cycle until we can find our way beyond the self preservation of human nature and move towards a species preservation mindset.
That will be fine until; "When owing to floods, famines, failure of crops or other such causes there occurs such a destruction of the human race as tradition tells us has more than once happened, and as we must believe will often happen again, all arts and crafts perishing at the same time" Quoted from OP; The Histories
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Just to make it clear so i dont do any stupid misstake, when you mean that i shouldn't mix the exhausted air with the intake air.
You mean that i wouldn't have the intake air Close to the exhausted or that i should not have any intake air at all?
And another question should i be using an AC?
Hey there Ideally what you want to do is create a wall down the middle of your miners. This way the hot exhaust is on one side. Here you will have exhaust fans taking that air from the space and moving it outside. On the cold side/miner air intake you will have louvered and filtered openings that allow the fresh air into your space. This is the typical set up of mining farms. I've never run a large facility so I'm not much help on the math for what size exhaust fans you need, but if you plan to expand you should go big then there will be less growing pains. With 15C intake air you will have an easy time making sure your farm is cool; so AC shouldn't be needed it's also a profit killer |
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Hello,
When I run T9+ it works fine several hours, after that hash rate on one chain drops to 96 aproximatly, only work 2 chips. Then I reboot the device and it works fine for several hours and then again hash rate drops on the same chain. I will post kernal log. On miner status all chips are showing "o", temperatures are max 78 C. I flashed firmware and its the same. Also two chips on other chain hashing 0. Does anyone knows what is causing the problem?
OP did you resolve this issue? I've been having the same issue since setting mine up a few days ago. My PSU is sound, it's 2400W, on 220V line. As you can see chain 13 seems to drop out. I have done a reboot each night/morning around my work schedule and it looks like it drops off after about 6 hours. When I review the kernel I do see on chain 13 that the first ASIC only reads ~6 whereas the rest read ~62. I haven't had a ton of time to troubleshoot the issue yet but thought I'd see what you came up with. Just glad this machine was only around 50$/TH (with the issue more like 60). Crappy picture I know was a little rushed on my way to work   [ 0.000000] Booting Linux on physical CPU 0x0
[ 0.000000] Linux version 3.14.0-xilinx-ge8a2f71-dirty (lzq@armdev2) (gcc version 4.8.3 20140320 (prerelease) (Sourcery CodeBench Lite 2014.05-23) ) #82 SMP PREEMPT Tue May 16 19:49:53 CST 2017
[ 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
[ 0.000015] sched_clock: 64 bits at 333MHz, resolution 3ns, wraps every 3298534883328ns
[ 0.000316] ps7-ttc #0 at df804000, irq=43
[ 0.000632] Console: colour dummy device 80x30
[ 0.000663] Calibrating delay loop... 1325.46 BogoMIPS (lpj=6627328)
[ 0.040211] pid_max: default: 32768 minimum: 301
[ 0.040438] Mount-cache hash table entries: 1024 (order: 0, 4096 bytes)
[ 0.040459] Mountpoint-cache hash table entries: 1024 (order: 0, 4096 bytes)
[ 0.042616] CPU: Testing write buffer coherency: ok
[ 0.042966] CPU0: thread -1, cpu 0, socket 0, mpidr 80000000
[ 0.043027] Setting up static identity map for 0x4c4b00 - 0x4c4b58
[ 0.043253] L310 cache controller enabled
[ 0.043273] l2x0: 8 ways, CACHE_ID 0x410000c8, AUX_CTRL 0x72760000, Cache size: 512 kB
[ 0.121046] CPU1: Booted secondary processor
[ 0.210232] CPU1: thread -1, cpu 1, socket 0, mpidr 80000001
[ 0.210367] Brought up 2 CPUs
[ 0.210386] SMP: Total of 2 processors activated.
[ 0.210395] CPU: All CPU(s) started in SVC mode.
[ 0.211092] devtmpfs: initialized
[ 0.213501] VFP support v0.3: implementor 41 architecture 3 part 30 variant 9 rev 4
[ 0.214761] regulator-dummy: no parameters
[ 0.223333] NET: Registered protocol family 16
[ 0.225653] DMA: preallocated 256 KiB pool for atomic coherent allocations
[ 0.227981] cpuidle: using governor ladder
[ 0.227994] cpuidle: using governor menu
[ 0.235507] syscon f8000000.ps7-slcr: regmap [mem 0xf8000000-0xf8000fff] registered
[ 0.237065] hw-breakpoint: found 5 (+1 reserved) breakpoint and 1 watchpoint registers.
[ 0.237079] hw-breakpoint: maximum watchpoint size is 4 bytes.
[ 0.237200] zynq-ocm f800c000.ps7-ocmc: ZYNQ OCM pool: 256 KiB @ 0xdf880000
[ 0.259708] bio: create slab <bio-0> at 0
[ 0.261628] vgaarb: loaded
[ 0.262369] SCSI subsystem initialized
[ 0.263259] usbcore: registered new interface driver usbfs
[ 0.263432] usbcore: registered new interface driver hub
[ 0.263663] usbcore: registered new device driver usb
[ 0.264192] media: Linux media interface: v0.10
[ 0.264349] Linux video capture interface: v2.00
[ 0.264590] pps_core: LinuxPPS API ver. 1 registered
[ 0.264601] pps_core: Software ver. 5.3.6 - Copyright 2005-2007 Rodolfo Giometti <giometti@linux.it>
[ 0.264727] PTP clock support registered
[ 0.265100] EDAC MC: Ver: 3.0.0
[ 0.266157] Advanced Linux Sound Architecture Driver Initialized.
[ 0.269153] DMA-API: preallocated 4096 debug entries
[ 0.269169] DMA-API: debugging enabled by kernel config
[ 0.269262] Switched to clocksource arm_global_timer
[ 0.290311] NET: Registered protocol family 2
[ 0.290995] TCP established hash table entries: 4096 (order: 2, 16384 bytes)
[ 0.291054] TCP bind hash table entries: 4096 (order: 3, 32768 bytes)
[ 0.291140] TCP: Hash tables configured (established 4096 bind 4096)
[ 0.291187] TCP: reno registered
[ 0.291206] UDP hash table entries: 256 (order: 1, 8192 bytes)
[ 0.291241] UDP-Lite hash table entries: 256 (order: 1, 8192 bytes)
[ 0.291490] NET: Registered protocol family 1
[ 0.291857] RPC: Registered named UNIX socket transport module.
[ 0.291869] RPC: Registered udp transport module.
[ 0.291877] RPC: Registered tcp transport module.
[ 0.291886] RPC: Registered tcp NFSv4.1 backchannel transport module.
[ 0.291899] PCI: CLS 0 bytes, default 64
[ 0.292355] hw perfevents: enabled with ARMv7 Cortex-A9 PMU driver, 7 counters available
[ 0.294430] futex hash table entries: 512 (order: 3, 32768 bytes)
[ 0.296647] jffs2: version 2.2. (NAND) © 2001-2006 Red Hat, Inc.
[ 0.296848] msgmni has been set to 967
[ 0.297655] io scheduler noop registered
[ 0.297669] io scheduler deadline registered
[ 0.297712] io scheduler cfq registered (default)
[ 0.309483] dma-pl330 f8003000.ps7-dma: Loaded driver for PL330 DMAC-2364208
[ 0.309502] dma-pl330 f8003000.ps7-dma: DBUFF-128x8bytes Num_Chans-8 Num_Peri-4 Num_Events-16
[ 0.435174] e0001000.serial: ttyPS0 at MMIO 0xe0001000 (irq = 82, base_baud = 3124999) is a xuartps
[ 1.003146] console [ttyPS0] enabled
[ 1.007443] xdevcfg f8007000.ps7-dev-cfg: ioremap 0xf8007000 to df866000
[ 1.015103] [drm] Initialized drm 1.1.0 20060810
[ 1.032384] brd: module loaded
[ 1.041828] loop: module loaded
[ 1.051792] e1000e: Intel(R) PRO/1000 Network Driver - 2.3.2-k
[ 1.057543] e1000e: Copyright(c) 1999 - 2013 Intel Corporation.
[ 1.065667] libphy: XEMACPS mii bus: probed
[ 1.070113] ------------- phy_id = 0x3625e62
[ 1.074891] xemacps e000b000.ps7-ethernet: pdev->id -1, baseaddr 0xe000b000, irq 54
[ 1.083605] ehci_hcd: USB 2.0 'Enhanced' Host Controller (EHCI) Driver
[ 1.090368] ehci-pci: EHCI PCI platform driver
[ 1.097588] zynq-dr e0002000.ps7-usb: Unable to init USB phy, missing?
[ 1.104435] usbcore: registered new interface driver usb-storage
[ 1.111328] mousedev: PS/2 mouse device common for all mice
[ 1.117439] i2c /dev entries driver
[ 1.124430] zynq-edac f8006000.ps7-ddrc: ecc not enabled
[ 1.130009] cpufreq_cpu0: failed to get cpu0 regulator: -19
[ 1.135907] Xilinx Zynq CpuIdle Driver started
[ 1.140787] sdhci: Secure Digital Host Controller Interface driver
[ 1.146877] sdhci: Copyright(c) Pierre Ossman
[ 1.151293] sdhci-pltfm: SDHCI platform and OF driver helper
[ 1.158039] mmc0: no vqmmc regulator found
[ 1.162083] mmc0: no vmmc regulator found
[ 1.199280] mmc0: SDHCI controller on e0100000.ps7-sdio [e0100000.ps7-sdio] using ADMA
[ 1.207973] usbcore: registered new interface driver usbhid
[ 1.213489] usbhid: USB HID core driver
[ 1.218211] nand: device found, Manufacturer ID: 0x2c, Chip ID: 0xda
[ 1.224508] nand: Micron MT29F2G08ABAEAWP
[ 1.228473] nand: 256MiB, SLC, page size: 2048, OOB size: 64
[ 1.234412] Bad block table found at page 131008, version 0x01
[ 1.240633] Bad block table found at page 130944, version 0x01
[ 1.246683] 3 ofpart partitions found on MTD device pl353-nand
[ 1.252465] Creating 3 MTD partitions on "pl353-nand":
[ 1.257554] 0x000000000000-0x000002000000 : "BOOT.bin-env-dts-kernel"
[ 1.265633] 0x000002000000-0x00000b000000 : "angstram-rootfs"
[ 1.272965] 0x00000b000000-0x000010000000 : "upgrade-rootfs"
[ 1.281981] TCP: cubic registered
[ 1.285215] NET: Registered protocol family 17
[ 1.289937] Registering SWP/SWPB emulation handler
[ 1.295871] regulator-dummy: disabling
[ 1.300261] UBI: attaching mtd1 to ubi0
[ 1.826469] UBI: scanning is finished
[ 1.838128] UBI: attached mtd1 (name "angstram-rootfs", size 144 MiB) to ubi0
[ 1.845204] UBI: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
[ 1.851966] UBI: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
[ 1.858631] UBI: VID header offset: 2048 (aligned 2048), data offset: 4096
[ 1.865509] UBI: good PEBs: 1152, bad PEBs: 0, corrupted PEBs: 0
[ 1.871489] UBI: user volume: 1, internal volumes: 1, max. volumes count: 128
[ 1.878596] UBI: max/mean erase counter: 3/1, WL threshold: 4096, image sequence number: 248547359
[ 1.887552] UBI: available PEBs: 0, total reserved PEBs: 1152, PEBs reserved for bad PEB handling: 40
[ 1.896770] UBI: background thread "ubi_bgt0d" started, PID 1080
[ 1.896775] drivers/rtc/hctosys.c: unable to open rtc device (rtc0)
[ 1.900851] ALSA device list:
[ 1.900855] No soundcards found.
[ 1.917215] UBIFS: background thread "ubifs_bgt0_0" started, PID 1082
[ 1.981422] UBIFS: mounted UBI device 0, volume 0, name "rootfs"
[ 1.987352] UBIFS: LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
[ 1.996500] UBIFS: FS size: 128626688 bytes (122 MiB, 1013 LEBs), journal size 9023488 bytes (8 MiB, 72 LEBs)
[ 2.006376] UBIFS: reserved for root: 0 bytes (0 KiB)
[ 2.011411] UBIFS: media format: w4/r0 (latest is w4/r0), UUID D5E65D66-FDFF-460C-B3DB-A1F2DEB908D8, small LPT model
[ 2.022965] VFS: Mounted root (ubifs filesystem) on device 0:11.
[ 2.030394] devtmpfs: mounted
[ 2.033499] Freeing unused kernel memory: 204K (c06d2000 - c0705000)
[ 2.883523] random: dd urandom read with 0 bits of entropy available
[ 3.279306]
[ 3.279306] bcm54xx_config_init
[ 3.889310]
[ 3.889310] bcm54xx_config_init
[ 6.890130] xemacps e000b000.ps7-ethernet: Set clk to 24999999 Hz
[ 6.896221] xemacps e000b000.ps7-ethernet: link up (100/FULL)
[ 23.620313] In axi fpga driver!
[ 23.623388] request_mem_region OK!
[ 23.626779] AXI fpga dev virtual address is 0xdf9fc000
[ 23.631915] *base_vir_addr = 0xc510
[ 23.647603] In fpga mem driver!
[ 23.650735] request_mem_region OK!
[ 23.654241] fpga mem virtual address is 0xe2000000
[ 24.448681]
[ 24.448681] bcm54xx_config_init
[ 25.078651]
[ 25.078651] bcm54xx_config_init
[ 28.079357] xemacps e000b000.ps7-ethernet: Set clk to 24999999 Hz
[ 28.085380] xemacps e000b000.ps7-ethernet: link up (100/FULL)
[ 477.112344] random: nonblocking pool is initialized
This is XILINX board. Totalram: 507527168
Detect 512MB control board of XILINX
DETECT HW version=8000c510
miner ID : 80148d0c6880881c
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 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x02 0x00 0x11 0x10 0x11 0x11 0x10 0x02 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x01 0x11 0x20 0x00 0x11 0x11 0x01 0x11 0x31 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x11 0x12 0x20 0x10 0x11 0x10 0x42 0x18 0x21 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[3] has core num=2
Chain[1] ASIC[6] has core num=1
Chain[1] ASIC[7] has core num=1
Chain[1] ASIC[8] has core num=1
Chain[1] ASIC[10] has core num=1
Chain[1] ASIC[11] has core num=1
Chain[1] ASIC[12] has core num=1
Chain[1] ASIC[13] has core num=1
Chain[1] ASIC[14] has core num=1
Chain[1] ASIC[17] has core num=2
Chain[2] 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 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x00 0x00 0x00 0x00 0x00 0x10 0x00 0x00 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 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[3] 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 0x20 0x11 0x21 0x10 0x21 0x13 0x20 0x92 0x10 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x11 0x21 0x11 0x00 0x11 0x01 0x21 0x10 0x13 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x01 0x11 0x11 0x10 0xa0 0x20 0x21 0x11 0x04 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=2
Chain[3] ASIC[2] has core num=1
Chain[3] ASIC[3] has core num=1
Chain[3] ASIC[4] has core num=2
Chain[3] ASIC[5] has core num=1
Chain[3] ASIC[6] has core num=1
Chain[3] ASIC[8] has core num=2
Chain[3] ASIC[9] has core num=1
Chain[3] ASIC[10] has core num=1
Chain[3] ASIC[11] has core num=3
Chain[3] ASIC[12] has core num=2
Chain[3] ASIC[14] has core num=9
Chain[3] ASIC[15] has core num=2
Chain[3] ASIC[16] has core num=1
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[1] has core num=1
Chain[8] ASIC[2] has core num=1
Chain[8] ASIC[3] has core num=1
Chain[8] ASIC[4] has core num=2
Chain[8] ASIC[8] has core num=1
Chain[8] ASIC[9] has core num=1
Chain[8] ASIC[10] has core num=1
Chain[8] ASIC[11] has core num=1
Chain[8] ASIC[13] has core num=1
Chain[8] ASIC[14] has core num=1
Chain[8] ASIC[15] has core num=1
Chain[8] ASIC[16] has core num=3
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=1
Chain[9] ASIC[2] has core num=1
Chain[9] ASIC[3] has core num=2
Chain[9] ASIC[4] has core num=2
Chain[9] ASIC[6] has core num=1
Chain[9] ASIC[8] has core num=1
Chain[9] ASIC[9] has core num=1
Chain[9] ASIC[10] has core num=1
Chain[9] ASIC[12] has core num=4
Chain[9] ASIC[13] has core num=2
Chain[9] ASIC[14] has core num=1
Chain[9] ASIC[15] has core num=8
Chain[9] ASIC[16] has core num=2
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[12] 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
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[0] has core num=1
Chain[12] ASIC[1] has core num=1
Chain[12] ASIC[2] has core num=2
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=1
Chain[12] ASIC[9] has core num=1
Chain[12] ASIC[11] has core num=1
Chain[12] ASIC[12] has core num=2
Chain[12] ASIC[13] has core num=1
Chain[12] ASIC[14] has core num=1
Chain[12] ASIC[16] has core num=1
Chain[12] ASIC[17] has core num=3
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[1] has core num=1
Chain[13] ASIC[2] has core num=1
Chain[13] ASIC[3] has core num=1
Chain[13] ASIC[4] has core num=1
Chain[13] ASIC[5] has core num=1
Chain[13] ASIC[6] has core num=1
Chain[13] ASIC[8] has core num=10
Chain[13] ASIC[10] has core num=2
Chain[13] ASIC[12] has core num=2
Chain[13] ASIC[13] has core num=1
Chain[13] ASIC[14] has core num=1
Chain[13] ASIC[15] has core num=1
Chain[13] ASIC[17] has core num=4
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: 1,0,0,0,0,0,40,28
chain[8] temp chip I2C addr=0x98
chain[10] temp offset record: 1,0,0,0,0,0,40,28
chain[10] temp chip I2C addr=0x98
chain[12] temp offset record: -1,-1,-1,-1,-1,-1,-1,-1
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= 1403 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 17 18:17:49 CST 2017 type: Antminer T9+set_reset_allhashboard = 0x0000ffff
set_reset_allhashboard = 0x00000000
set_reset_allhashboard = 0x0000ffff
miner ID : 80148d0c6880881c
set_reset_allhashboard = 0x0000ffff
Checking fans!get fan[5] speed=6120
get fan[2] speed=6120
get fan[5] speed=6120
get fan[2] speed=6120
get fan[5] speed=6120
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 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x02 0x00 0x11 0x10 0x11 0x11 0x10 0x02 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x01 0x11 0x20 0x00 0x11 0x11 0x01 0x11 0x31 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x11 0x12 0x20 0x10 0x11 0x10 0x42 0x18 0x21 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 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x00 0x00 0x00 0x00 0x00 0x10 0x00 0x00 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 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 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x20 0x11 0x21 0x10 0x21 0x13 0x20 0x92 0x10 0x3e 0x57 0x00 0xff 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x3e 0x11 0x21 0x11 0x00 0x11 0x01 0x21 0x10 0x13 0x3f 0x57 0x00 0xff 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x3f 0x01 0x11 0x11 0x10 0xa0 0x20 0x21 0x11 0x04 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[3] has core num=2
Chain[J2] ASIC[6] has core num=1
Chain[J2] ASIC[7] has core num=1
Chain[J2] ASIC[8] has core num=1
Chain[J2] ASIC[10] has core num=1
Chain[J2] ASIC[11] has core num=1
Chain[J2] ASIC[12] has core num=1
Chain[J2] ASIC[13] has core num=1
Chain[J2] ASIC[14] has core num=1
Chain[J2] ASIC[17] has core num=2
Chain[J3] has core num in PIC
Chain[J4] has core num in PIC
Chain[J4] ASIC[0] has core num=2
Chain[J4] ASIC[2] has core num=1
Chain[J4] ASIC[3] has core num=1
Chain[J4] ASIC[4] has core num=2
Chain[J4] ASIC[5] has core num=1
Chain[J4] ASIC[6] has core num=1
Chain[J4] ASIC[8] has core num=2
Chain[J4] ASIC[9] has core num=1
Chain[J4] ASIC[10] has core num=1
Chain[J4] ASIC[11] has core num=3
Chain[J4] ASIC[12] has core num=2
Chain[J4] ASIC[14] has core num=9
Chain[J4] ASIC[15] has core num=2
Chain[J4] ASIC[16] has core num=1
Chain[J9] has core num in PIC
Chain[J9] ASIC[1] has core num=1
Chain[J9] ASIC[2] has core num=1
Chain[J9] ASIC[3] has core num=1
Chain[J9] ASIC[4] has core num=2
Chain[J9] ASIC[8] has core num=1
Chain[J9] ASIC[9] has core num=1
Chain[J9] ASIC[10] has core num=1
Chain[J9] ASIC[11] has core num=1
Chain[J9] ASIC[13] has core num=1
Chain[J9] ASIC[14] has core num=1
Chain[J9] ASIC[15] has core num=1
Chain[J9] ASIC[16] has core num=3
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=1
Chain[J10] ASIC[2] has core num=1
Chain[J10] ASIC[3] has core num=2
Chain[J10] ASIC[4] has core num=2
Chain[J10] ASIC[6] has core num=1
Chain[J10] ASIC[8] has core num=1
Chain[J10] ASIC[9] has core num=1
Chain[J10] ASIC[10] has core num=1
Chain[J10] ASIC[12] has core num=4
Chain[J10] ASIC[13] has core num=2
Chain[J10] ASIC[14] has core num=1
Chain[J10] ASIC[15] has core num=8
Chain[J10] ASIC[16] has core num=2
Chain[J10] ASIC[17] has core num=1
Chain[J11] has core num in PIC
Chain[J11] ASIC[12] has core num=1
Chain[J12] has core num in PIC
Chain[J13] has core num in PIC
Chain[J13] ASIC[0] has core num=1
Chain[J13] ASIC[1] has core num=1
Chain[J13] ASIC[2] has core num=2
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=1
Chain[J13] ASIC[9] has core num=1
Chain[J13] ASIC[11] has core num=1
Chain[J13] ASIC[12] has core num=2
Chain[J13] ASIC[13] has core num=1
Chain[J13] ASIC[14] has core num=1
Chain[J13] ASIC[16] has core num=1
Chain[J13] ASIC[17] has core num=3
Chain[J14] has core num in PIC
Chain[J14] ASIC[1] has core num=1
Chain[J14] ASIC[2] has core num=1
Chain[J14] ASIC[3] has core num=1
Chain[J14] ASIC[4] has core num=1
Chain[J14] ASIC[5] has core num=1
Chain[J14] ASIC[6] has core num=1
Chain[J14] ASIC[8] has core num=10
Chain[J14] ASIC[10] has core num=2
Chain[J14] ASIC[12] has core num=2
Chain[J14] ASIC[13] has core num=1
Chain[J14] ASIC[14] has core num=1
Chain[J14] ASIC[15] has core num=1
Chain[J14] ASIC[17] has core num=4
miner total rate=10579GH/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=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:1 max freq=575
Chain:1 min freq=575
read PIC voltage=930 on chain[2]
Chain:2 chipnum=18
Chain[J3] voltage added=0.0V
Chain:2 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:2 max freq=575
Chain:2 min freq=575
read PIC voltage=930 on chain[3]
Chain:3 chipnum=18
Chain[J4] voltage added=0.0V
Chain:3 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:3 max freq=581
Chain:3 min freq=581
read PIC voltage=930 on chain[8]
Chain:8 chipnum=18
Chain[J9] voltage added=0.0V
Chain:8 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:8 max freq=575
Chain:8 min freq=575
read PIC voltage=930 on chain[9]
Chain:9 chipnum=18
Chain[J10] voltage added=0.0V
Chain:9 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:9 max freq=581
Chain:9 min freq=581
read PIC voltage=930 on chain[10]
Chain:10 chipnum=18
Chain[J11] voltage added=0.0V
Chain:10 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:10 max freq=575
Chain:10 min freq=575
read PIC voltage=930 on chain[11]
Chain:11 chipnum=18
Chain[J12] voltage added=0.0V
Chain:11 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:11 max freq=575
Chain:11 min freq=575
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=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:13 max freq=581
Chain:13 min freq=581
Miner fix freq ...
read PIC voltage=930 on chain[1]
Chain:1 chipnum=18
Chain[J2] voltage added=0.0V
Chain:1 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:1 max freq=575
Chain:1 min freq=575
read PIC voltage=930 on chain[2]
Chain:2 chipnum=18
Chain[J3] voltage added=0.0V
Chain:2 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:2 max freq=575
Chain:2 min freq=575
read PIC voltage=930 on chain[3]
Chain:3 chipnum=18
Chain[J4] voltage added=0.0V
Chain:3 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:3 max freq=581
Chain:3 min freq=581
read PIC voltage=930 on chain[8]
Chain:8 chipnum=18
Chain[J9] voltage added=0.0V
Chain:8 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:8 max freq=575
Chain:8 min freq=575
read PIC voltage=930 on chain[9]
Chain:9 chipnum=18
Chain[J10] voltage added=0.0V
Chain:9 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:9 max freq=581
Chain:9 min freq=581
read PIC voltage=930 on chain[10]
Chain:10 chipnum=18
Chain[J11] voltage added=0.0V
Chain:10 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:10 max freq=575
Chain:10 min freq=575
read PIC voltage=930 on chain[11]
Chain:11 chipnum=18
Chain[J12] voltage added=0.0V
Chain:11 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:11 max freq=575
Chain:11 min freq=575
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=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:13 max freq=581
Chain:13 min freq=581
max freq = 581
set baud=1
Chain[J9] PIC temp offset=1,0,0,0,0,0,40,28
chain[8] temp chip I2C addr=0x98
chain[8] has no middle temp, use special fix mode.
Chain[J9] chip[0] use PIC middle temp offset=0 typeID=55
New offset Chain[8] chip[0] local:29 remote:31 offset:28
Chain[J9] chip[0] get middle temp offset=28 typeID=55
Chain[J11] PIC temp offset=1,0,0,0,0,0,40,28
chain[10] temp chip I2C addr=0x98
chain[10] has no middle temp, use special fix mode.
Chain[J11] chip[0] use PIC middle temp offset=0 typeID=55
New offset Chain[10] chip[0] local:30 remote:35 offset:25
Chain[J11] chip[0] get middle temp offset=25 typeID=55
Chain[J13] PIC temp offset=-1,-1,-1,-1,-1,-1,-1,-1
chain[12] temp chip I2C addr=0x98
chain[12] has no middle temp, use special fix mode.
Warning: Chain[J13] has no temp offset in PIC! will fix it
Chain[J13] use default temp chip[0]
Chain[J13] try read temp chip[0] ID=55 (I2C addr=0x98)
New offset Chain[12] chip[0] local:29 remote:33 offset:26
Chain[J13] chip[0] get middle temp offset=26 typeID=55
single board rate=1173 voltage limit=870 on chain[1]
get PIC voltage=870 on chain[1], check: must be < 870
single board rate=1179 voltage limit=870 on chain[2]
get PIC voltage=870 on chain[2], check: must be < 870
single board rate=1175 voltage limit=870 on chain[3]
get PIC voltage=870 on chain[3], check: must be < 870
single board rate=1170 voltage limit=870 on chain[8]
get PIC voltage=870 on chain[8], check: must be < 870
single board rate=1175 voltage limit=870 on chain[9]
get PIC voltage=870 on chain[9], check: must be < 870
single board rate=1179 voltage limit=870 on chain[10]
get PIC voltage=870 on chain[10], check: must be < 870
single board rate=1179 voltage limit=870 on chain[11]
get PIC voltage=870 on chain[11], check: must be < 870
single board rate=1169 voltage limit=870 on chain[12]
get PIC voltage=870 on chain[12], check: must be < 870
single board rate=1176 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]
do heat board 8xPatten for 1 times
start send works on chain[1]
start send works on chain[2]
start send works on chain[3]
start send works on chain[8]
start send works on chain[9]
start send works on chain[10]
start send works on chain[11]
start send works on chain[12]
start send works on chain[13]
get send work num :16416 on Chain[1]
get send work num :16416 on Chain[2]
get send work num :16416 on Chain[3]
get send work num :16416 on Chain[8]
get send work num :16416 on Chain[9]
get send work num :16416 on Chain[10]
get send work num :16416 on Chain[11]
get send work num :16416 on Chain[12]
get send work num :16416 on Chain[13]
wait recv nonce on chain[1]
wait recv nonce on chain[2]
wait recv nonce on chain[3]
wait recv nonce on chain[8]
wait recv nonce on chain[9]
wait recv nonce on chain[10]
wait recv nonce on chain[11]
wait recv nonce on chain[12]
wait recv nonce on chain[13]
get nonces on chain[1]
require nonce number:912
require validnonce number:16416
asic[00]=912 asic[01]=912 asic[02]=912 asic[03]=906 asic[04]=912 asic[05]=912 asic[06]=905 asic[07]=906
asic[08]=908 asic[09]=912 asic[10]=910 asic[11]=908 asic[12]=908 asic[13]=905 asic[14]=907 asic[15]=912
asic[16]=912 asic[17]=908
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[03]=906
core[003]=5 core[043]=5
asic[06]=905
core[084]=1
asic[07]=906
core[016]=2
asic[08]=908
core[073]=4
asic[10]=910
core[062]=6
asic[11]=908
core[006]=4
asic[12]=908
core[105]=4
asic[13]=905
core[057]=1
asic[14]=907
core[073]=3
asic[17]=908
core[069]=6 core[084]=6
freq[00]=575 freq[01]=575 freq[02]=575 freq[03]=575 freq[04]=575 freq[05]=575 freq[06]=575 freq[07]=575
freq[08]=575 freq[09]=575 freq[10]=575 freq[11]=575 freq[12]=575 freq[13]=575 freq[14]=575 freq[15]=575
freq[16]=575 freq[17]=575
total valid nonce number:16367
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2008
last_nonce_num:143
get nonces on chain[2]
require nonce number:912
require validnonce number:16416
asic[00]=912 asic[01]=912 asic[02]=912 asic[03]=912 asic[04]=912 asic[05]=912 asic[06]=912 asic[07]=912
asic[08]=912 asic[09]=912 asic[10]=912 asic[11]=912 asic[12]=912 asic[13]=912 asic[14]=912 asic[15]=912
asic[16]=912 asic[17]=912
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
freq[00]=575 freq[01]=575 freq[02]=575 freq[03]=575 freq[04]=575 freq[05]=575 freq[06]=575 freq[07]=575
freq[08]=575 freq[09]=575 freq[10]=575 freq[11]=575 freq[12]=575 freq[13]=575 freq[14]=575 freq[15]=575
freq[16]=575 freq[17]=575
total valid nonce number:16416
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2011
last_nonce_num:140
get nonces on chain[3]
require nonce number:912
require validnonce number:16416
asic[00]=901 asic[01]=912 asic[02]=908 asic[03]=909 asic[04]=900 asic[05]=904 asic[06]=910 asic[07]=912
asic[08]=907 asic[09]=907 asic[10]=910 asic[11]=898 asic[12]=907 asic[13]=912 asic[14]=873 asic[15]=907
asic[16]=909 asic[17]=912
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[00]=901
core[022]=4 core[088]=1
asic[02]=908
core[014]=4
asic[03]=909
core[066]=5
asic[04]=900
core[054]=4 core[113]=0
asic[05]=904
core[069]=0
asic[06]=910
core[079]=6
asic[08]=907
core[104]=4 core[109]=7
asic[09]=907
core[011]=3
asic[10]=910
core[112]=6
asic[11]=898
core[012]=3 core[027]=3 core[030]=4
asic[12]=907
core[016]=5 core[055]=6
asic[14]=873
core[058]=0 core[060]=4 core[061]=4 core[062]=3 core[070]=5 core[073]=0 core[074]=5 core[087]=7 core[091]=5
asic[15]=907
core[023]=6 core[112]=5
asic[16]=909
core[034]=5
freq[00]=581 freq[01]=581 freq[02]=581 freq[03]=581 freq[04]=581 freq[05]=581 freq[06]=581 freq[07]=581
freq[08]=581 freq[09]=581 freq[10]=581 freq[11]=581 freq[12]=581 freq[13]=581 freq[14]=581 freq[15]=581
freq[16]=581 freq[17]=581
total valid nonce number:16298
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2015
last_nonce_num:150
get nonces on chain[8]
require nonce number:912
require validnonce number:16416
asic[00]=912 asic[01]=907 asic[02]=909 asic[03]=908 asic[04]=907 asic[05]=912 asic[06]=912 asic[07]=912
asic[08]=910 asic[09]=908 asic[10]=909 asic[11]=906 asic[12]=912 asic[13]=908 asic[14]=904 asic[15]=906
asic[16]=888 asic[17]=906
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[01]=907
core[030]=3
asic[02]=909
core[107]=5
asic[03]=908
core[026]=4
asic[04]=907
core[010]=5 core[109]=6
asic[08]=910
core[011]=6
asic[09]=908
core[000]=4
asic[10]=909
core[095]=5
asic[11]=906
core[009]=2
asic[13]=908
core[093]=4
asic[14]=904
core[027]=0
asic[15]=906
core[105]=2
asic[16]=888
core[004]=0 core[035]=0 core[063]=0
asic[17]=906
core[020]=2
freq[00]=575 freq[01]=575 freq[02]=575 freq[03]=575 freq[04]=575 freq[05]=575 freq[06]=575 freq[07]=575
freq[08]=575 freq[09]=575 freq[10]=575 freq[11]=575 freq[12]=575 freq[13]=575 freq[14]=575 freq[15]=575
freq[16]=575 freq[17]=575
total valid nonce number:16336
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:1990
last_nonce_num:120
get nonces on chain[9]
require nonce number:912
require validnonce number:16416
asic[00]=911 asic[01]=907 asic[02]=911 asic[03]=908 asic[04]=906 asic[05]=912 asic[06]=907 asic[07]=912
asic[08]=909 asic[09]=908 asic[10]=904 asic[11]=912 asic[12]=900 asic[13]=905 asic[14]=909 asic[15]=896
asic[16]=906 asic[17]=906
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[00]=911
core[099]=7
asic[01]=907
core[004]=3
asic[02]=911
core[003]=7
asic[03]=908
core[057]=7 core[076]=5
asic[04]=906
core[007]=6 core[111]=4
asic[06]=907
core[060]=3
asic[08]=909
core[017]=5
asic[09]=908
core[035]=4
asic[10]=904
core[023]=0
asic[12]=900
core[008]=3 core[027]=3 core[036]=7 core[110]=7
asic[13]=905
core[091]=6 core[109]=3
asic[14]=909
core[011]=5
asic[15]=896
core[012]=7 core[021]=4 core[023]=6 core[025]=4 core[032]=7 core[034]=6 core[041]=7 core[092]=7
asic[16]=906
core[073]=5 core[081]=5
asic[17]=906
core[107]=2
freq[00]=581 freq[01]=581 freq[02]=581 freq[03]=581 freq[04]=581 freq[05]=581 freq[06]=581 freq[07]=581
freq[08]=581 freq[09]=581 freq[10]=581 freq[11]=581 freq[12]=581 freq[13]=581 freq[14]=581 freq[15]=581
freq[16]=581 freq[17]=581
total valid nonce number:16329
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2021
last_nonce_num:136
get nonces on chain[10]
require nonce number:912
require validnonce number:16416
asic[00]=912 asic[01]=912 asic[02]=912 asic[03]=912 asic[04]=912 asic[05]=912 asic[06]=912 asic[07]=912
asic[08]=912 asic[09]=912 asic[10]=912 asic[11]=912 asic[12]=909 asic[13]=912 asic[14]=912 asic[15]=912
asic[16]=912 asic[17]=912
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[12]=909
core[055]=5
freq[00]=575 freq[01]=575 freq[02]=575 freq[03]=575 freq[04]=575 freq[05]=575 freq[06]=575 freq[07]=575
freq[08]=575 freq[09]=575 freq[10]=575 freq[11]=575 freq[12]=575 freq[13]=575 freq[14]=575 freq[15]=575
freq[16]=575 freq[17]=575
total valid nonce number:16413
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2012
last_nonce_num:142
get nonces on chain[11]
require nonce number:912
require validnonce number:16416
asic[00]=912 asic[01]=912 asic[02]=912 asic[03]=912 asic[04]=912 asic[05]=912 asic[06]=912 asic[07]=912
asic[08]=912 asic[09]=912 asic[10]=912 asic[11]=912 asic[12]=912 asic[13]=912 asic[14]=912 asic[15]=912
asic[16]=912 asic[17]=912
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
freq[00]=575 freq[01]=575 freq[02]=575 freq[03]=575 freq[04]=575 freq[05]=575 freq[06]=575 freq[07]=575
freq[08]=575 freq[09]=575 freq[10]=575 freq[11]=575 freq[12]=575 freq[13]=575 freq[14]=575 freq[15]=575
freq[16]=575 freq[17]=575
total valid nonce number:16416
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2011
last_nonce_num:141
get nonces on chain[12]
require nonce number:912
require validnonce number:16416
asic[00]=908 asic[01]=908 asic[02]=901 asic[03]=911 asic[04]=905 asic[05]=904 asic[06]=912 asic[07]=912
asic[08]=906 asic[09]=909 asic[10]=912 asic[11]=911 asic[12]=907 asic[13]=909 asic[14]=911 asic[15]=912
asic[16]=909 asic[17]=905
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[00]=908
core[112]=4
asic[01]=908
core[089]=4
asic[02]=901
core[061]=1 core[070]=4
asic[03]=911
core[020]=7
asic[04]=905
core[101]=1
asic[05]=904
core[093]=0
asic[08]=906
core[039]=2
asic[09]=909
core[043]=5
asic[11]=911
core[063]=7
asic[12]=907
core[005]=5 core[102]=6
asic[13]=909
core[103]=5
asic[14]=911
core[063]=7
asic[16]=909
core[020]=5
asic[17]=905
core[017]=5 core[020]=7 core[045]=5
freq[00]=575 freq[01]=575 freq[02]=575 freq[03]=575 freq[04]=575 freq[05]=575 freq[06]=575 freq[07]=575
freq[08]=575 freq[09]=575 freq[10]=575 freq[11]=575 freq[12]=575 freq[13]=575 freq[14]=575 freq[15]=575
freq[16]=575 freq[17]=575
total valid nonce number:16352
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2003
last_nonce_num:152
get nonces on chain[13]
require nonce number:912
require validnonce number:16416
asic[00]=912 asic[01]=904 asic[02]=904 asic[03]=909 asic[04]=909 asic[05]=909 asic[06]=908 asic[07]=912
asic[08]=863 asic[09]=912 asic[10]=905 asic[11]=912 asic[12]=904 asic[13]=908 asic[14]=907 asic[15]=910
asic[16]=912 asic[17]=897
Below ASIC's core didn't receive all the nonce, they should receive 8 nonce each!
asic[01]=904
core[104]=0
asic[02]=904
core[043]=0
asic[03]=909
core[092]=5
asic[04]=909
core[085]=5
asic[05]=909
core[075]=5
asic[06]=908
core[095]=4
asic[08]=863
core[004]=2 core[030]=0 core[032]=7 core[033]=3 core[035]=3 core[036]=3 core[038]=5 core[042]=3 core[045]=3 core[053]=2
asic[10]=905
core[002]=5 core[061]=4
asic[12]=904
core[046]=2 core[067]=6
asic[13]=908
core[030]=4
asic[14]=907
core[037]=3
asic[15]=910
core[042]=6
asic[17]=897
core[072]=6 core[095]=4 core[103]=3 core[104]=4
freq[00]=581 freq[01]=581 freq[02]=581 freq[03]=581 freq[04]=581 freq[05]=581 freq[06]=581 freq[07]=581
freq[08]=581 freq[09]=581 freq[10]=581 freq[11]=581 freq[12]=581 freq[13]=581 freq[14]=581 freq[15]=581
freq[16]=581 freq[17]=581
total valid nonce number:16297
total send work number:16416
require valid nonce number:16416
repeated_nonce_num:0
err_nonce_num:2012
last_nonce_num:144
chain[1]: All chip cores are opened OK!
Test Patten on chain[1]: OK!
chain[2]: All chip cores are opened OK!
Test Patten on chain[2]: OK!
chain[3]: All chip cores are opened OK!
Test Patten on chain[3]: OK!
chain[8]: All chip cores are opened OK!
Test Patten on chain[8]: OK!
chain[9]: All chip cores are opened OK!
Test Patten on chain[9]: OK!
chain[10]: All chip cores are opened OK!
Test Patten on chain[10]: OK!
chain[11]: All chip cores are opened OK!
Test Patten on chain[11]: OK!
chain[12]: All chip cores are opened OK!
Test Patten on chain[12]: OK!
chain[13]: All chip cores are opened OK!
Test Patten on chain[13]: OK!
setStartTimePoint total_tv_start_sys=180 total_tv_end_sys=181
restartNum = 2 , auto-reinit enabled...
do read_temp_func once...
do check_asic_reg 0x08
get RT hashrate from Chain[1]: (asic index start from 1-18)
Asic[01]=67.5610 Asic[02]=68.4340 Asic[03]=67.6450 Asic[04]=60.1630 Asic[05]=65.8670 Asic[06]=64.0720 Asic[07]=63.4170 Asic[08]=67.6790
Asic[09]=67.7960 Asic[10]=65.6150 Asic[11]=60.5150 Asic[12]=60.6830 Asic[13]=68.3000 Asic[14]=62.9140 Asic[15]=60.0950 Asic[16]=65.9510
Asic[17]=61.5220 Asic[18]=72.4770
get RT hashrate from Chain[2]: (asic index start from 1-18)
Asic[01]=68.1320 Asic[02]=66.0350 Asic[03]=67.9980 Asic[04]=66.7730 Asic[05]=64.6420 Asic[06]=71.6210 Asic[07]=68.1490 Asic[08]=69.4400
Asic[09]=65.2960 Asic[10]=67.3770 Asic[11]=65.4980 Asic[12]=59.0390 Asic[13]=66.6220 Asic[14]=67.8970 Asic[15]=66.2860 Asic[16]=64.1890
Asic[17]=68.8030 Asic[18]=62.8640
get RT hashrate from Chain[3]: (asic index start from 1-18)
Asic[01]=66.7730 Asic[02]=61.4040 Asic[03]=40.9860 Asic[04]=67.9470 Asic[05]=67.9810 Asic[06]=68.4670 Asic[07]=64.7930 Asic[08]=65.6150
Asic[09]=65.1120 Asic[10]=65.5310 Asic[11]=65.7330 Asic[12]=68.7020 Asic[13]=69.0550 Asic[14]=69.0550 Asic[15]=62.1590 Asic[16]=66.6550
Asic[17]=64.5250 Asic[18]=68.2320
get RT hashrate from Chain[8]: (asic index start from 1-18)
Asic[01]=69.4740 Asic[02]=67.5110 Asic[03]=64.0720 Asic[04]=70.1790 Asic[05]=67.4440 Asic[06]=63.3840 Asic[07]=68.2160 Asic[08]=62.8640
Asic[09]=68.0480 Asic[10]=67.4610 Asic[11]=61.9750 Asic[12]=63.0480 Asic[13]=60.4650 Asic[14]=68.0140 Asic[15]=65.2290 Asic[16]=69.8090
Asic[17]=56.9410 Asic[18]=63.3840
get RT hashrate from Chain[9]: (asic index start from 1-18)
Asic[01]=67.7960 Asic[02]=64.7600 Asic[03]=70.4470 Asic[04]=65.4980 Asic[05]=67.9980 Asic[06]=69.7420 Asic[07]=67.4770 Asic[08]=65.5650
Asic[09]=63.0990 Asic[10]=66.8570 Asic[11]=69.8770 Asic[12]=66.9910 Asic[13]=64.0210 Asic[14]=63.4010 Asic[15]=61.5720 Asic[16]=66.9240
Asic[17]=72.8800 Asic[18]=67.0080
get RT hashrate from Chain[10]: (asic index start from 1-18)
Asic[01]=70.1280 Asic[02]=68.7020 Asic[03]=70.8660 Asic[04]=68.2830 Asic[05]=64.6760 Asic[06]=62.8970 Asic[07]=64.1050 Asic[08]=67.3770
Asic[09]=68.2490 Asic[10]=66.5880 Asic[11]=62.4950 Asic[12]=71.3360 Asic[13]=67.4440 Asic[14]=63.4510 Asic[15]=69.0380 Asic[16]=65.5980
Asic[17]=65.5820 Asic[18]=64.4910
get RT hashrate from Chain[11]: (asic index start from 1-18)
Asic[01]=62.4280 Asic[02]=65.1290 Asic[03]=62.2770 Asic[04]=65.8000 Asic[05]=67.0240 Asic[06]=67.4270 Asic[07]=65.4470 Asic[08]=62.0250
Asic[09]=63.6020 Asic[10]=66.4540 Asic[11]=67.9980 Asic[12]=63.0480 Asic[13]=62.4780 Asic[14]=64.0380 Asic[15]=65.9840 Asic[16]=63.6350
Asic[17]=63.5850 Asic[18]=62.5280
get RT hashrate from Chain[12]: (asic index start from 1-18)
Asic[01]=31.0710 Asic[02]=61.6220 Asic[03]=1.45900
get RT hashrate from Chain[13]: (asic index start from 1-18)
Asic[01]=6.12300 Asic[02]=61.1860 Asic[03]=68.6690 Asic[04]=68.6520 Asic[05]=65.9510 Asic[06]=62.4610 Asic[07]=67.9980 Asic[08]=65.4470
Asic[09]=60.6160 Asic[10]=62.4280 Asic[11]=65.3130 Asic[12]=62.4280 Asic[13]=63.0480 Asic[14]=65.1960 Asic[15]=71.3700 Asic[16]=66.2700
Asic[17]=69.2560 Asic[18]=67.7630
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=55 middle offset=28
Chain[8] Chip[1] local Temp=60
Chain[8] Chip[1] middle Temp=76
Special fix Chain[8] Chip[1] middle Temp = 75
Done read temp on Chain[8]
do read temp on Chain[10]
Chain[10] Chip[1] TempTypeID=55 middle offset=25
Chain[10] Chip[1] local Temp=56
Chain[10] Chip[1] middle Temp=71
Special fix Chain[10] Chip[1] middle Temp = 71
Done read temp on Chain[10]
do read temp on Chain[12]
Chain[12] Chip[1] TempTypeID=55 middle offset=26
Chain[12] Chip[1] local Temp=43
Chain[12] Chip[1] middle Temp=52
Special fix Chain[12] Chip[1] middle Temp = 58
Done read temp on Chain[12]
set FAN speed according to: temp_highest=60 temp_top1[PWM_T]=60 temp_top1[TEMP_POS_LOCAL]=60 temp_change=-2 fix_fan_steps=0
set normal FAN speed...
FAN PWM: 70
read_temp_func Done!
CRC error counter=23559
Moderator's note: This post was edited by frodocooper to reduce the size of the embedded image. |
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Not a lot of information on this case for some reason.  All the suspects have really long Viking names though. Yeah I am surprised that there isn't more info, including the original heists. Maybe it is a secret society of old bloodlines dating back to the viking pillaging days... No offence to any vikings |
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Well seems to defeat the purpose of Merit, but I'll lock the thread up.
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