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Install NVidia 1080Ti Drivers on Ubuntu 18.04

NVidia 1080TI Drivers on Ubuntu 18.04

How to guide for installing drivers for the NVidia 1080TI Video Card

sudo bash

echo blacklist nouveau > /etc/modprobe.d/blacklist-nvidia-nouveau.conf

echo options nouveau modeset=0 >> /etc/modprobe.d/blacklist-nvidia-nouveau.conf

update-initramfs -u

reboot

Login and then:

sudo bash

dpkg   – -add-architecture i386

apt-get update

apt-get install build-essential libc6:i386 -y

apt-get install pkg-config
apt-get install xorg -y
reboot

Login and then

sudo bash

mkdir /installs && mkdir /installs/drivers && mkdir /installs/drivers/nvidia && cd /installs/drivers/nvidia

Find the drivers from here:
http://www.nvidia.com/Download/index.aspx

Make sure you select the drivers for the Linux 64-bit operating system

Then run
wget and the link that was provided above

Once it is downloaded you will need to run
chmod 755 ./NVI*
./NV*.run

This will begin the installation

Install the 32-bit compatibility libraries

Install and Overwrite with the full version of libglvnd if prompted

Select Yes to run the nvidia-xconfig utility to automatically update your X configuration

Click OK when the installation has completed

reboot

Login as your normal user

Type nvidia-smi to verify all of your adapters show up

That’s it.  Thanks for reading!

The hardware that I used in this guide:
Gigabyte AORUS GeForce GTX 1080 Ti (QTY 6):
https://amzn.to/2JqvXC8

Motherboard (QTY 1): 
https://amzn.to/2JqGJZ7

CPU (QTY 1): 
https://amzn.to/3qevp2X

Memory (QTY 1): 
https://amzn.to/2JqHn8Z

Hard Drive (QTY 1):  
https://amzn.to/3lic3X5

Risers (QTY 6):  
https://amzn.to/33rIgVE

Power Supplies (QTY 2):
https://amzn.to/3fTRpLR

Add2PSU (QTY 1):
https://amzn.to/39s4URY

Power Switch (QTY 1):  
https://amzn.to/3ljmNVk

Installing XMR-STAK on Ubuntu with NVidia 1080TI

How-To guide for installing XMR-STAK on Ubuntu 16.04.04 for Mining LOKI

I prefer linux (more specifically Ubuntu) for mining, and have preferred linux since I began mining in 2012/2013.  I was finally fed up with Windows 10 mining of Loki after the most recent set of Windows updates broke several of my rigs.  So I used a small ubuntu rig that I used for testing, and was able to install the XMR-STAK app onto it.  As happy as ever to be able to mine Loki now with Ubuntu, I thought I should put together this quick guide and hope that it may be beneficial to others.  Some of the steps are from github, some are from other sites, some I had found myself.  This is a central place to get you up and running without having to look too far.

For this guide I am assuming you already have a mining rig built with the following:

Ubuntu 16.04.04

NVidia 1080TI Cards

Loki Wallet already downloaded, installed, and the wallet address ready

I am going to run the commands logged in as sudo to make this quick and easy

Now, onto the guide:

sudo bash

apt-get install libmicrohttpd-dev libssl-dev cmake build-essential libhwloc-dev screen

mkdir /miner && mkdir /miner/drivers

git clone https://github.com/fireice-uk/xmr-stak.git

mkdir xmr-stak/build

cd xmr-stak/build

cmake ..

make install

cd /miner/drivers/xmr-stak/build/bin/

./xmr-stak

You will need to insert a port for monitoring the progress.  I use port 30131 and press Enter

Next type in cryptonight_heavy and press Enter

For the pool address, I use loki.ingest.cryptoknight.cc:7733  press Enter

Your username will be your wallet address, for example

LChtjHqr29p5FojLdMtcUW5ApLWyQHH5j4366V78YECEjUkgK99Y7uLDVLpHjXpYM3UcZ39FFL5Gvd4debF95mcJHbnx5ke

The password will be your worker name.  For example mine is Miner23

Your Rig Identifier can be empty, so just press Enter

Input N for TLS and press Enter

Insert N for Nicehash and press Enter

Input N for multiple pools and press Enter

Select Yes when prompted

Mining will begin!

Once you see it mining properly, hit CTRL + C to cancel the mining.  You will want to run it in screen, so you can disconnect from the terminal and the miner will continue to run. To do that run:

screen ./xmr-stak

It will run and you can now disconnect from your putty session or whatever way you are logged in.  If you want to reconnect to your terminal at any time, run the following and you can see your miner running

screen -r

That’s it!  Thanks for reading!

The hardware that I used in this guide:
Gigabyte AORUS GeForce GTX 1080 Ti (QTY 6):
https://amzn.to/2JqvXC8

Motherboard (QTY 1): 
https://amzn.to/2JqGJZ7

CPU (QTY 1): 
https://amzn.to/3qevp2X

Memory (QTY 1): 
https://amzn.to/2JqHn8Z

Hard Drive (QTY 1):  
https://amzn.to/3lic3X5

Risers (QTY 6):  
https://amzn.to/33rIgVE

Power Supplies (QTY 2):
https://amzn.to/3fTRpLR

Add2PSU (QTY 1):
https://amzn.to/39s4URY

Power Switch (QTY 1):  
https://amzn.to/3ljmNVk

XMR-STAK Error using NVidia 1080TI Cards

How-To fix NVidia 1080TI – XMR-STAK Thread Error

I have been seeing the following error pop-up when you run XMR-STAK for the first time while using NVidia 1080TI cards

[CUDA] Error gpu 1: <C:/xmr-stak/xmrstak/backend/nvidia/nvcc_code/cuda_extra.cu>:312
**suggestion: Try to reduce the value of the attribute ‘threads’ in the NVIDIA config file.**

There is a simple way to resolve this error.  Open up the directory that you used to launch xmr-stak.exe 

if you are mining with NVidia cards, open up the nvidia.txt file.

[AMD steps are similar to this.  You would just open the amd.txt file instead]

For each of the GPUs listed within the txt file, you will need to Lower the number of Threads on this line:

“threads” : 26, “blocks” : 84,

I would recommend lowering them in half for all of your GPUs

“threads” : 13, “blocks” : 84,

Save the file

Re-Launch xmr-stak.exe and try to mine with it.

If it works you will then incrementally raise the threads to the level which your mining rig can support.

That’s it!  Thanks for reading

6 GPU NVidia 1080TI / CUDA 10 / NVidia-410 Drivers / Hashcat 5.0.0 / Ubuntu 18.04

#hashcat -b

hashcat (v5.0.0-84-geec1fba4) starting in benchmark mode…

Benchmarking uses hand-optimized kernel code by default.
You can use it in your cracking session by setting the -O option.
Note: Using optimized kernel code limits the maximum supported password length.
To disable the optimized kernel code in benchmark mode, use the -w option.

OpenCL Platform #1: NVIDIA Corporation
======================================
* Device #1: GeForce GTX 1080 Ti, 2793/11175 MB allocatable, 28MCU
* Device #2: GeForce GTX 1080 Ti, 2794/11178 MB allocatable, 28MCU
* Device #3: GeForce GTX 1080 Ti, 2794/11178 MB allocatable, 28MCU
* Device #4: GeForce GTX 1080 Ti, 2794/11178 MB allocatable, 28MCU
* Device #5: GeForce GTX 1080 Ti, 2794/11178 MB allocatable, 28MCU
* Device #6: GeForce GTX 1080 Ti, 2794/11178 MB allocatable, 28MCU

Benchmark relevant options:
===========================
* –optimized-kernel-enable

Hashmode: 0 – MD5

Speed.#1………: 30812.1 MH/s (27.70ms) @ Accel:128 Loops:1024 Thr:256 Vec:4
Speed.#2………: 32529.5 MH/s (27.50ms) @ Accel:128 Loops:1024 Thr:256 Vec:4
Speed.#3………: 32031.3 MH/s (27.21ms) @ Accel:128 Loops:1024 Thr:256 Vec:4
Speed.#4………: 30324.8 MH/s (27.46ms) @ Accel:128 Loops:1024 Thr:256 Vec:4
Speed.#5………: 30532.0 MH/s (26.94ms) @ Accel:128 Loops:1024 Thr:256 Vec:4
Speed.#6………: 31141.3 MH/s (27.54ms) @ Accel:128 Loops:1024 Thr:256 Vec:4
Speed.#*………: 187.4 GH/s

Hashmode: 100 – SHA1

Speed.#1………: 11321.3 MH/s (80.12ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#2………: 11374.7 MH/s (79.01ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#3………: 11301.7 MH/s (79.01ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#4………: 11375.1 MH/s (79.39ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#5………: 11430.5 MH/s (78.09ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#6………: 11400.4 MH/s (79.69ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#*………: 68203.7 MH/s

Hashmode: 1400 – SHA2-256

Speed.#1………: 3965.3 MH/s (55.34ms) @ Accel:128 Loops:256 Thr:256 Vec:1
Speed.#2………: 4097.7 MH/s (54.66ms) @ Accel:128 Loops:256 Thr:256 Vec:1
Speed.#3………: 4069.8 MH/s (54.48ms) @ Accel:128 Loops:256 Thr:256 Vec:1
Speed.#4………: 3984.1 MH/s (54.84ms) @ Accel:128 Loops:256 Thr:256 Vec:1
Speed.#5………: 4082.5 MH/s (53.61ms) @ Accel:128 Loops:256 Thr:256 Vec:1
Speed.#6………: 4072.4 MH/s (55.04ms) @ Accel:128 Loops:256 Thr:256 Vec:1
Speed.#*………: 24271.7 MH/s

Hashmode: 1700 – SHA2-512

Speed.#1………: 1401.6 MH/s (81.58ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#2………: 1366.3 MH/s (80.19ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#3………: 1404.8 MH/s (80.03ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#4………: 1402.7 MH/s (80.86ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#5………: 1428.6 MH/s (79.17ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#6………: 1408.5 MH/s (81.21ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#*………: 8412.5 MH/s

Hashmode: 2500 – WPA-EAPOL-PBKDF2 (Iterations: 4096)

Speed.#1………: 503.9 kH/s (53.02ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#2………: 498.2 kH/s (52.76ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#3………: 500.2 kH/s (52.08ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#4………: 496.9 kH/s (52.66ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#5………: 510.6 kH/s (51.44ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#6………: 506.1 kH/s (52.54ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#*………: 3015.9 kH/s

Hashmode: 1000 – NTLM

Speed.#1………: 42210.1 MH/s (16.76ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#2………: 46847.2 MH/s (17.00ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#3………: 47071.9 MH/s (16.70ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#4………: 42154.1 MH/s (16.63ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#5………: 47066.0 MH/s (16.47ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#6………: 46836.9 MH/s (16.82ms) @ Accel:128 Loops:1024 Thr:256 Vec:2
Speed.#*………: 272.2 GH/s

Hashmode: 3000 – LM

Speed.#1………: 26691.9 MH/s (32.25ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#2………: 26740.0 MH/s (32.49ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#3………: 27078.6 MH/s (31.96ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#4………: 25743.8 MH/s (32.08ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#5………: 26966.5 MH/s (31.62ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#6………: 26687.1 MH/s (32.04ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#*………: 159.9 GH/s

Hashmode: 5500 – NetNTLMv1 / NetNTLMv1+ESS

Speed.#1………: 28072.5 MH/s (30.73ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#2………: 28575.4 MH/s (30.93ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#3………: 27606.5 MH/s (30.54ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#4………: 27665.4 MH/s (30.57ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#5………: 27995.9 MH/s (29.94ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#6………: 27669.8 MH/s (30.52ms) @ Accel:128 Loops:1024 Thr:256 Vec:1
Speed.#*………: 167.6 GH/s

Hashmode: 5600 – NetNTLMv2

Speed.#1………: 2184.6 MH/s (51.10ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#2………: 2196.9 MH/s (51.24ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#3………: 2162.2 MH/s (50.72ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#4………: 2227.9 MH/s (50.85ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#5………: 2251.7 MH/s (49.91ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#6………: 2234.8 MH/s (50.79ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#*………: 13257.9 MH/s

Hashmode: 1500 – descrypt, DES (Unix), Traditional DES

Speed.#1………: 1221.5 MH/s (93.28ms) @ Accel:16 Loops:1024 Thr:256 Vec:1
Speed.#2………: 1216.4 MH/s (92.77ms) @ Accel:16 Loops:1024 Thr:256 Vec:1
Speed.#3………: 1248.8 MH/s (92.56ms) @ Accel:16 Loops:1024 Thr:256 Vec:1
Speed.#4………: 1228.6 MH/s (92.82ms) @ Accel:16 Loops:1024 Thr:256 Vec:1
Speed.#5………: 1246.9 MH/s (91.64ms) @ Accel:16 Loops:1024 Thr:256 Vec:1
Speed.#6………: 1222.7 MH/s (92.94ms) @ Accel:16 Loops:1024 Thr:256 Vec:1
Speed.#*………: 7384.9 MH/s

Hashmode: 500 – md5crypt, MD5 (Unix), Cisco-IOS $1$ (MD5) (Iterations: 1000)

Speed.#1………: 11748.5 kH/s (62.83ms) @ Accel:1024 Loops:1000 Thr:32 Vec:1
Speed.#2………: 11433.8 kH/s (62.29ms) @ Accel:1024 Loops:1000 Thr:32 Vec:1
Speed.#3………: 9552.9 kH/s (61.38ms) @ Accel:1024 Loops:1000 Thr:32 Vec:1
Speed.#4………: 10466.3 kH/s (63.17ms) @ Accel:1024 Loops:1000 Thr:32 Vec:1
Speed.#5………: 11531.4 kH/s (59.97ms) @ Accel:1024 Loops:1000 Thr:32 Vec:1
Speed.#6………: 11995.0 kH/s (61.08ms) @ Accel:1024 Loops:1000 Thr:32 Vec:1
Speed.#*………: 66727.9 kH/s

Hashmode: 3200 – bcrypt $2*$, Blowfish (Unix) (Iterations: 32)

Speed.#1………: 21696 H/s (40.33ms) @ Accel:16 Loops:8 Thr:8 Vec:1
Speed.#2………: 21736 H/s (39.83ms) @ Accel:16 Loops:8 Thr:8 Vec:1
Speed.#3………: 20255 H/s (39.84ms) @ Accel:16 Loops:8 Thr:8 Vec:1
Speed.#4………: 17433 H/s (40.37ms) @ Accel:16 Loops:8 Thr:8 Vec:1
Speed.#5………: 20955 H/s (39.30ms) @ Accel:16 Loops:8 Thr:8 Vec:1
Speed.#6………: 19016 H/s (39.66ms) @ Accel:16 Loops:8 Thr:8 Vec:1
Speed.#*………: 121.1 kH/s

Hashmode: 1800 – sha512crypt $6$, SHA512 (Unix) (Iterations: 5000)

Speed.#1………: 195.2 kH/s (55.51ms) @ Accel:512 Loops:128 Thr:32 Vec:1
Speed.#2………: 194.7 kH/s (55.46ms) @ Accel:512 Loops:128 Thr:32 Vec:1
Speed.#3………: 196.3 kH/s (55.18ms) @ Accel:512 Loops:128 Thr:32 Vec:1
Speed.#4………: 190.7 kH/s (55.33ms) @ Accel:512 Loops:128 Thr:32 Vec:1
Speed.#5………: 194.9 kH/s (54.52ms) @ Accel:512 Loops:128 Thr:32 Vec:1
Speed.#6………: 193.5 kH/s (55.34ms) @ Accel:512 Loops:128 Thr:32 Vec:1
Speed.#*………: 1165.3 kH/s

Hashmode: 7500 – Kerberos 5 AS-REQ Pre-Auth etype 23

Speed.#1………: 409.9 MH/s (69.32ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#2………: 418.1 MH/s (68.41ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#3………: 416.4 MH/s (68.45ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#4………: 414.2 MH/s (68.99ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#5………: 419.6 MH/s (67.45ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#6………: 424.2 MH/s (67.68ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#*………: 2502.4 MH/s

Hashmode: 13100 – Kerberos 5 TGS-REP etype 23

Speed.#1………: 413.7 MH/s (69.08ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#2………: 420.9 MH/s (68.00ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#3………: 426.6 MH/s (67.45ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#4………: 404.5 MH/s (68.06ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#5………: 409.0 MH/s (66.63ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#6………: 423.6 MH/s (67.36ms) @ Accel:256 Loops:64 Thr:64 Vec:1
Speed.#*………: 2498.3 MH/s

Hashmode: 15300 – DPAPI masterkey file v1 (Iterations: 23999)

Speed.#1………: 90607 H/s (51.98ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#2………: 89260 H/s (51.98ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#3………: 87394 H/s (51.33ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#4………: 90018 H/s (51.68ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#5………: 89189 H/s (50.61ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#6………: 90973 H/s (51.82ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#*………: 537.4 kH/s

Hashmode: 15900 – DPAPI masterkey file v2 (Iterations: 7999)

Speed.#1………: 53882 H/s (64.77ms) @ Accel:256 Loops:128 Thr:32 Vec:1
Speed.#2………: 55701 H/s (63.65ms) @ Accel:256 Loops:128 Thr:32 Vec:1
Speed.#3………: 55610 H/s (63.81ms) @ Accel:256 Loops:128 Thr:32 Vec:1
Speed.#4………: 53128 H/s (64.05ms) @ Accel:256 Loops:128 Thr:32 Vec:1
Speed.#5………: 55293 H/s (62.36ms) @ Accel:256 Loops:128 Thr:32 Vec:1
Speed.#6………: 56658 H/s (62.97ms) @ Accel:256 Loops:128 Thr:32 Vec:1
Speed.#*………: 330.3 kH/s

Hashmode: 7100 – macOS v10.8+ (PBKDF2-SHA512) (Iterations: 35000)

Speed.#1………: 15860 H/s (50.87ms) @ Accel:128 Loops:32 Thr:256 Vec:1
Speed.#2………: 15165 H/s (50.54ms) @ Accel:128 Loops:32 Thr:256 Vec:1
Speed.#3………: 15540 H/s (50.43ms) @ Accel:128 Loops:32 Thr:256 Vec:1
Speed.#4………: 15610 H/s (50.56ms) @ Accel:128 Loops:32 Thr:256 Vec:1
Speed.#5………: 16109 H/s (49.56ms) @ Accel:128 Loops:32 Thr:256 Vec:1
Speed.#6………: 15675 H/s (50.66ms) @ Accel:128 Loops:32 Thr:256 Vec:1
Speed.#*………: 93959 H/s

Hashmode: 11600 – 7-Zip (Iterations: 524288)

Speed.#1………: 11549 H/s (75.36ms) @ Accel:128 Loops:512 Thr:256 Vec:1
Speed.#2………: 11675 H/s (74.94ms) @ Accel:128 Loops:512 Thr:256 Vec:1
Speed.#3………: 11777 H/s (73.82ms) @ Accel:128 Loops:512 Thr:256 Vec:1
Speed.#4………: 11403 H/s (74.86ms) @ Accel:128 Loops:512 Thr:256 Vec:1
Speed.#5………: 11705 H/s (72.68ms) @ Accel:128 Loops:512 Thr:256 Vec:1
Speed.#6………: 11608 H/s (74.24ms) @ Accel:128 Loops:512 Thr:256 Vec:1
Speed.#*………: 69718 H/s

Hashmode: 12500 – RAR3-hp (Iterations: 262144)

Speed.#1………: 49474 H/s (69.97ms) @ Accel:8 Loops:16384 Thr:256 Vec:1
Speed.#2………: 49584 H/s (70.95ms) @ Accel:8 Loops:16384 Thr:256 Vec:1
Speed.#3………: 49425 H/s (70.62ms) @ Accel:8 Loops:16384 Thr:256 Vec:1
Speed.#4………: 46549 H/s (75.75ms) @ Accel:8 Loops:16384 Thr:256 Vec:1
Speed.#5………: 45534 H/s (75.60ms) @ Accel:8 Loops:16384 Thr:256 Vec:1
Speed.#6………: 45352 H/s (75.66ms) @ Accel:8 Loops:16384 Thr:256 Vec:1
Speed.#*………: 285.9 kH/s

Hashmode: 13000 – RAR5 (Iterations: 32767)

Speed.#1………: 49120 H/s (69.11ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#2………: 49563 H/s (68.76ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#3………: 50303 H/s (68.43ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#4………: 49116 H/s (68.85ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#5………: 51149 H/s (67.84ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#6………: 49402 H/s (68.68ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#*………: 298.7 kH/s

Hashmode: 6211 – TrueCrypt PBKDF2-HMAC-RIPEMD160 + XTS 512 bit (Iterations: 2000)

Speed.#1………: 389.0 kH/s (70.13ms) @ Accel:128 Loops:64 Thr:256 Vec:1
Speed.#2………: 387.5 kH/s (69.35ms) @ Accel:128 Loops:64 Thr:256 Vec:1
Speed.#3………: 395.3 kH/s (68.65ms) @ Accel:128 Loops:64 Thr:256 Vec:1
Speed.#4………: 389.9 kH/s (69.61ms) @ Accel:128 Loops:64 Thr:256 Vec:1
Speed.#5………: 399.8 kH/s (67.99ms) @ Accel:128 Loops:64 Thr:256 Vec:1
Speed.#6………: 387.1 kH/s (68.89ms) @ Accel:128 Loops:64 Thr:256 Vec:1
Speed.#*………: 2348.6 kH/s

Hashmode: 13400 – KeePass 1 (AES/Twofish) and KeePass 2 (AES) (Iterations: 6000)

Speed.#1………: 184.2 kH/s (99.94ms) @ Accel:512 Loops:256 Thr:32 Vec:1
Speed.#2………: 185.0 kH/s (99.64ms) @ Accel:512 Loops:256 Thr:32 Vec:1
Speed.#3………: 185.0 kH/s (99.25ms) @ Accel:512 Loops:256 Thr:32 Vec:1
Speed.#4………: 183.3 kH/s (101.08ms) @ Accel:512 Loops:256 Thr:32 Vec:1
Speed.#5………: 178.9 kH/s (100.66ms) @ Accel:512 Loops:256 Thr:32 Vec:1
Speed.#6………: 185.2 kH/s (101.18ms) @ Accel:512 Loops:256 Thr:32 Vec:1
Speed.#*………: 1101.6 kH/s

Hashmode: 6800 – LastPass + LastPass sniffed (Iterations: 500)

Speed.#1………: 3094.3 kH/s (66.77ms) @ Accel:128 Loops:125 Thr:256 Vec:1
Speed.#2………: 2945.4 kH/s (67.14ms) @ Accel:128 Loops:125 Thr:256 Vec:1
Speed.#3………: 2898.4 kH/s (67.05ms) @ Accel:128 Loops:125 Thr:256 Vec:1
Speed.#4………: 2703.0 kH/s (66.63ms) @ Accel:128 Loops:125 Thr:256 Vec:1
Speed.#5………: 2924.7 kH/s (65.91ms) @ Accel:128 Loops:125 Thr:256 Vec:1
Speed.#6………: 2901.5 kH/s (66.43ms) @ Accel:128 Loops:125 Thr:256 Vec:1
Speed.#*………: 17467.4 kH/s

Hashmode: 11300 – Bitcoin/Litecoin wallet.dat (Iterations: 199999)

Speed.#1………: 5931 H/s (96.58ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#2………: 5947 H/s (96.14ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#3………: 5935 H/s (95.93ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#4………: 5908 H/s (96.08ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#5………: 6076 H/s (94.35ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#6………: 5867 H/s (96.40ms) @ Accel:128 Loops:128 Thr:256 Vec:1
Speed.#*………: 35664 H/s

Started: Sat Nov 17 18:24:13 2018
Stopped: Sat Nov 17 18:37:12 2018

The hardware that I used in this guide:
Gigabyte AORUS GeForce GTX 1080 Ti (QTY 6):
https://amzn.to/2JqvXC8

Motherboard (QTY 1): 
https://amzn.to/2JqGJZ7

CPU (QTY 1): 
https://amzn.to/3qevp2X

Memory (QTY 1): 
https://amzn.to/2JqHn8Z

Hard Drive (QTY 1):
https://amzn.to/3nZ5pH4

Risers (QTY 6):  
https://amzn.to/33rIgVE

Power Supplies (QTY 2):
https://amzn.to/3fTRpLR

Add2PSU (QTY 1):
https://amzn.to/39s4URY

Power Switch (QTY 1):  
https://amzn.to/3ljmNVk

Installing TPRUVOT’s CCMiner on Ubuntu 16.04

How-to Guide for Installing the Linux version of ccminer (tpruvot) on Ubuntu 16.04.04

This is a quick guide that I created a few months back.  It gets the latest version of tpruvot’s ccminer installed and running on your Ubuntu mining rig.  There are a lot of algos which can use this, and since most of my rigs run on linux, I had to find a way to get it installed.  It is the general commands that I use from a terminal.  The assumption here is that you already have Ubuntu 16.04 installed and updated.  It is also assumed that you are running NVidia 1080Ti cards, and they are all functional.  I am going to run it all logged in as sudo to make it quick and easy.

From the terminal:

sudo bash

apt-get dist-upgade

apt-get purge nvidia*

reboot

mkdir /drivers && mkdir /drivers/nvidia

wget https://developer.nvidia.com/compute/cuda/9.1/Prod/local_installers/cuda_9.1.85_387.26_linux

mv cuda_9.1.85_387.26_linux cuda_9.1.85_387.26_linux.run

chmod +x cuda_9.1.85_387.26_linux cuda_9.1.85_387.26_linux.run

sh cuda_9.1.85_387.26_linux.run

Answer “yes” for installing the nvidia-drivers, the cuda tools and the symbolic link.

apt-get install git automake openssl libssl1.0.0 libssl-dev libcurl4-openssl-dev

cd /drivers/

git clone https://github.com/tpruvot/ccminer.git

cd ccminer

nano Makefile.am

CTRL & W

Search for 61

Remove comment at the beginning of the line which refers to “61

CTRL & X

Y to save

nano /etc/ld.so.conf.d/cuda-9.1-x86_64

Put only one line:
/usr/local/cuda-9.1/lib64

CTRL & X

Y to save

ldconfig

cd /drivers/ccminer

./build.sh

make install

cd /home/miner/ && nano .bashrc

add this to the end:
export LD_LIBRARY_PATH=/usr/local/cuda-9.1/lib64:$LD_LIBRARY_PATH
export PATH=/usr/local/cuda-9.1/bin:$PATH

CTRL & X

Y to save

nano start.sh

Insert the following into the file:

nvidia-smi -pm 1
nvidia-smi -acp 0
nvidia-smi -pl 300
./ccminer -a x16r -i 20 -o stratum+tcp://us.bsod.pw:2176 -u RMzHAFgqgjV5qLkajBjLQ325V7HWBpG3d9 -p c=RVN

CTRL & X

Y to save

chmod +x start.sh

./start.sh

You are now up and mining.  I have chosen Raven for this one, only since I was mining it when I put it together.  You will want to remove my wallet address and insert your own.  Otherwise, the rest will get your rig up and running.

Happy Mining!

Mining LOKI on Windows 10 with NVidia 1080TI Cards

How-to Guide for Mining LOKI

Quick rundown on how to mine a new crypto named LOKI or LOK as some of you may know it as.  I mine it with both NVidia and AMD series cards.  This guide will walk you through mining it with NVidia Series cards.  You will find that the guide is a mirror of the AMD guide, except for how you fine tune it at the end.

The mining software will throw errors with your AV program.  You will need to whitelist the files when they are downloaded, or disable Realtime Protection..  Personally, I only use Windows Defender on my mining rigs, so I can keep the costs down, plus it is easy to wipe and reinstall the OS if need be.

For Windows Defender, you will need to open the program up, and disable Realtime Protection

If you are using Chrome as your Browser, you will also need to allow the download there as well.  To do this:

Open up Chrome

In your address bar type in chrome://settings and press Enter

Scroll to the bottom and select Advanced

De-Select “Protect your device from dangerous sites” 

Now you can download the software

Open up another chrome tab and download XMR-STAK to your Windows 10 computer from here:

https://github.com/fireice-uk/xmr-stak/releases

Once you have it downloaded, go ahead and unzip the file to your Desktop

Navigate to the unpacked files

Double click on xmr-stak and Run the file

You will need to insert a port for monitoring the progress.  I use port 30131 and press Enter

Next type in cryptonight_heavy and press Enter

For the pool address, I use loki.ingest.cryptoknight.cc:7733  press Enter

Your username will be your wallet address, for example

LChtjHqr29p5FojLdMtcUW5ApLWyQHH5j4366V78YECEjUkgK99Y7uLDVLpHjXpYM3UcZ39FFL5Gvd4debF95mcJHbnx5ke

Your password will be your worker name.  For example mine is Miner6

Your Rig Identifier can be empty, so just press Enter

Input N for TLS and press Enter

Insert N for Nicehash and press Enter

Input N for multiple pools and press Enter

Select Yes when prompted

and your miner will begin!

Now you can use the ipaddress:port/h of your miner to keep an eye on it’s progress from anywhere in the network.  For example, navigate to

Once you are mining, you can open up the nvidia.txt file in the same directory as your xmr-stak executable.  Within the nvidia.txt file, you will be able to modify your settings.  I have found that changing the threads setting it will yield the most results.  Each series of card can act differently, so spend some time, and fine tune this settings.  It will be worth the time invested.

Happy Mining!

The hardware that I used in this guide:
Gigabyte AORUS GeForce GTX 1080 Ti (QTY 6):
https://amzn.to/2JqvXC8

Motherboard (QTY 1): 
https://amzn.to/2JqGJZ7

CPU (QTY 1): 
https://amzn.to/3qevp2X

Memory (QTY 1): 
https://amzn.to/2JqHn8Z

Hard Drive (QTY 1):
https://amzn.to/3nZ5pH4

Risers (QTY 6):  
https://amzn.to/33rIgVE

Power Supplies (QTY 2):
https://amzn.to/3fTRpLR

Add2PSU (QTY 1):
https://amzn.to/39s4URY

Power Switch (QTY 1):  
https://amzn.to/3ljmNVk

Burning the Ubuntu Server 16.04.04 ISO onto a USB

Step One – Prepare the OS Installation Media

Below you will find the default way in which I use a Windows 10 Computer, Etcher, and a USB Drive, to create and install Ubuntu Server 16.04.04 onto a mining rig.  Once you have that ISO flashed onto a USB drive, you can go from mining rig to mining rig, installing the Operating System.  So this really is step one in the entire process.  This guide will in turn become the starting point for each linux based coin/token/masternode that we will gather.  Shoot me any questions you have.

From your Windows 10 machine, Download and install the Bittorrent Client:

http://www.bittorrent.com/downloads/complete/track/stable/os/win

 

Then download the Official Ubuntu Server 16.04.04 (x64) Release:

Finally, Download and Install Etcher (this will write your ISO to the USB Drive)

https://etcher.io/

Once the Ubuntu software has been downloaded, insert a USB drive to write the Operating System Installer to

Make sure this USB drive has nothing else on it.   Everything will be erased

To write Ubuntu to the USB drive:

Open Etcher

Click Select Image

Navigate to where you downloaded the Ubuntu ISO (it is probably located in your Downloads folder)

Select the ubuntu-16.04.4-server-amd64 image and click Open

Click Select Drive

Select the USB drive

Click Continue

Click Flash

Select Continue to Flash the drive

It should take a few minutes for Ubuntu Server to be written to the USB drive

When it has completed flashing the USB drive you can click the X at the top right corner to close the window

Now, you are ready to begin the installation.  So, insert it into a USB 3.0 port on your mining rig, and turn the rig on

 

My Setup – Ubuntu Mining Rig with NVidia 1080Ti cards

Rig Parts Breakdown and Driver Installation for the NVidia 1080 TI GPUs on Ubuntu 16.04.04

I have several rigs running at any given time. Below you will find the equipment list for my NVidia 1080 TI Rigs, and also the installation instructions on getting the Drivers working under Ubuntu 16.04.04

Rack to Install the Hardware On.  I usually put two full rigs onto one single rack.  It saves space and I end up stacking mine (QTY 1): Seville Classics 3-Tier UltraZinc Cabinet Organizer, 7.5″ W x 17.5″ D x 18.5″ H

These steps will help you install the drivers.  It assumes that you have the hardware connected and Ubuntu Server 16.04 already installed.

Log into your Rig

Open a Terminal

sudo bash

apt-get update && apt-get upgrade

apt-get install gcc libglu1-mesa libxi-dev libxmu-dev libglu1-mesa-dev screen

lspci | grep -i nvidia

Check to see if all gpus are listed

apt-get install linux-headers-$(uname -r)

mkdir /miner && mkdir /miner/drivers/ &&  mkdir /miner/drivers/nvidia && cd /miner/drivers/nvidia

sudo add-apt-repository ppa:graphics-drivers/ppa && sudo apt update 

wget https://developer.nvidia.com/compute/cuda/9.1/Prod/local_installers/cuda_9.1.85_387.26_linux

chmod +x cuda_9.1.85_387.26_linux

mv cuda_9.1.85_387.26_linux cuda_9.1.85_387.26_linux.run

apt-get purge nvidia*

screen sh cuda_9.1.85_387.26_linux.run

Answer “yes” for installing the nvidia-drivers, the cuda tools and the symbolic link.

nano /etc/ld.so.conf.d/cuda-9.1-x86_64

put only one line:
/usr/local/cuda-9.1/lib64

Save the file and exit

Then run

ldconfig

In the next step you will want to change tacticalware to the name of your home directory

cd /home/tacticalware/ && nano .bashrc

add this to the end:
# add cuda tools to command path
export LD_LIBRARY_PATH=/usr/local/cuda-9.1/lib64:$LD_LIBRARY_PATH
export PATH=/usr/local/cuda-9.1/bin:$PATH

Save the file and exit

systemctl disable lightdm.service

reboot

Log back in and check to ensure all of your GPUs are still accessible

nvidia-smi

That’s it.  Your GPUs are setup and ready to mine!

Hardware that I use:
Motherboard (QTY 1):
https://amzn.to/2JqGJZ7

CPU (QTY 1):
https://amzn.to/3qevp2X

Memory (QTY 1):
https://amzn.to/2JqHn8Z

Hard Drive (QTY 1):
https://amzn.to/3lic3X5

Risers (QTY 6):
https://amzn.to/33rIgVE

Power Supplies (QTY 2):
https://amzn.to/3fTRpLR

Add2PSU (QTY 1):
https://amzn.to/39s4URY

GPUs (QTY 6):
https://amzn.to/2JqvXC8

Power Switch (QTY 1):
https://amzn.to/3ljmNVk