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While BTC donations are preferred, if you wish to donate to the author, Con
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Kolivas, in LTC, please submit your donations to:
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Lc8TWMiKM7gRUrG8VB8pPNP1Yvt1SGZnoH
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Otherwise, please donate in BTC as per the main README.
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---
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Scrypt mining, AKA litecoin mining, for GPU is completely different to sha256
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used for bitcoin mining. The algorithm was originally developed in a manner
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that it was anticipated would make it suitable for mining on CPU but NOT GPU.
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Thanks to some innovative work by Artforz and mtrlt, this was proven to be
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wrong. However, it has very different requirements to bitcoin mining and is a
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lot more complicated to get working well. Note that it is a ram dependent
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workload, and requires you to have enough system ram as well as fast enough
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GPU ram. If you have less system ram than your GPU has, it may not be possible
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to mine at any reasonable rate.
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There are 5 main parameters to tuning scrypt, all of which are optional for
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further fine tuning. When you start mining, cgminer may fail IN RANDOM WAYS.
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They are all due to parameters being outside what the GPU can cope with.
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NOTE that if it does not fail at startup, the presence of hardware errors (HW)
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are a sure sign that you have set the parameters too high.
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DRIVERS AND OPENCL SDK
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The choice of driver version for your GPU is critical, as some are known to
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break scrypt mining entirely while others give poor hashrates. As for the
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OpenCL SDK installed, for AMD it must be version 2.6 or later.
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Step 1 on Linux:
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export GPU_MAX_ALLOC_PERCENT=100
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If you do not do this, you may find it impossible to scrypt mine. You may find
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a value of 40 is enough and increasing this further has little effect.
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export GPU_USE_SYNC_OBJECTS=1
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may help CPU usage a little as well.
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On windows the same commands can be passed via a batch file if the following
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lines are in the .bat before starting cgminer:
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setx GPU_MAX_ALLOC_PERCENT 100
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setx GPU_USE_SYNC_OBJECTS 1
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--intensity XX (-I XX)
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Just like in bitcoin mining, scrypt mining takes an intensity, however the
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scale goes from 0 to 20 to mimic the "Aggression" used in mtrlt's reaper. The
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reason this is crucial is that too high an intensity can actually be
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disastrous with scrypt because it CAN run out of ram. High intensities
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start writing over the same ram and it is highly dependent on the GPU, but
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they
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can start actually DECREASING your hashrate, or even worse, start producing
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garbage with HW errors skyrocketing. Note that if you do NOT specify an
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intensity, cgminer uses dynamic mode which is designed to minimise the harm
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to a running desktop and performance WILL be poor. The lower limit to intensity
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with scrypt is usually 8 and cgminer will prevent it going too low.
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SUMMARY: Setting this for reasonable hashrates is mandatory.
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--shaders XXX
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is a new option where you tell cgminer how many shaders your GPU has. This
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helps cgminer try to choose some meaningful baseline parameters. Use this table
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below to determine how many shaders your GPU has, and note that there are some
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variants of these cards, and nvidia shaders are much much lower and virtually
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pointless trying to mine on. If this is not set, cgminer will query the
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device for how much memory it supports and will try to set a value based on
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that.
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SUMMARY: This will get you started but fine tuning for optimal performance is
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required.
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GPU Shaders
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7750 512
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7770 640
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7850 1024
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7870 1280
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7950 1792
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7970 2048
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6850 960
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6870 1120
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6950 1408
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6970 1536
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6990 (6970x2)
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6570 480
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6670 480
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6790 800
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6450 160
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5670 400
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5750 720
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5770 800
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5830 1120
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5850 1440
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5870 1600
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5970 (5870x2)
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These are only used as a rough guide for cgminer, and it is rare that this is
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all you will need to set.
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Optional parameters to tune:
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-g, --thread-concurrency, --lookup-gap
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--thread-concurrency:
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This tunes the optimal size of work that scrypt can do. It is internally tuned
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by cgminer to be the highest reasonable multiple of shaders that it can
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allocate on your GPU. Ideally it should be a multiple of your shader count.
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vliw5 architecture (R5XXX) would be best at 5x shaders, while VLIW4 (R6xxx and
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R7xxx) are best at 4x. Setting thread concurrency overrides anything you put
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into --shaders and is ultimately a BETTER way to tune performance.
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SUMMARY: Spend lots of time finding the highest value that your device likes
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and increases hashrate.
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-g:
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Once you have found the optimal shaders and intensity, you can start increasing
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the -g value till cgminer fails to start. This is really only of value if you
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want to run low intensities as you will be unable to run more than 1.
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SUMMARY: Don't touch this.
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--lookup-gap
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This tunes a compromise between ram usage and performance. Performance peaks
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at a gap of 2, but increasing the gap can save you some GPU ram, but almost
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always at the cost of significant loss of hashrate. Setting lookup gap
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overrides the default of 2, but cgminer will use the --shaders value to choose
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a thread-concurrency if you haven't chosen one.
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SUMMARY: Don't touch this.
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Related parameters:
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--worksize XX (-w XX)
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Has a minor effect, should be a multiple of 64 up to 256 maximum.
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SUMMARY: Worth playing with once everything else has been tried but will
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probably do nothing.
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--vectors XX (-v XX)
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Vectors are NOT used by the scrypt mining kernel.
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SUMMARY: Does nothing.
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Overclocking for scrypt mining:
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First of all, do not underclock your memory initially. Scrypt mining requires
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memory speed and on most, but not all, GPUs, lowering memory speed lowers
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mining performance.
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Second, absolute engine clock speeds do NOT correlate with hashrate. The ratio
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of engine clock speed to memory matters, so if you set your memory to the
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default value, and then start overclocking as you are running it, you should
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find a sweet spot where the hashrate peaks and then it might actually drop if
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you increase the engine clock speed further.
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Third, the combination of motherboard, CPU and system ram ALSO makes a
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difference, so values that work for a GPU on one system may not work for the
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same GPU on a different system. A decent amount of system ram is actually
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required for scrypt mining, and 4GB is suggested.
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Finally, the power consumption while mining at high engine clocks, very high
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memory clocks can be far in excess of what you might imagine.
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For example, a 7970 running with the following settings:
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--thread-concurrency 22392 --gpu-engine 1135 --gpu-memclock 1890
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was using 305W!
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---
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TUNING AN AMD RADEON 7970
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Example tuning a 7970 for Scrypt mining:
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On linux run this command:
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export GPU_MAX_ALLOC_PERCENT=100
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or on windows this:
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setx GPU_MAX_ALLOC_PERCENT 100
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in the same console/bash/dos prompt/bat file/whatever you want to call it,
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before running cgminer.
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First, find the highest thread concurrency that you can start it at. They should
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all start at 8192 but some will go up to 3 times that. Don't go too high on the
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intensity while testing and don't change gpu threads. If you cannot go above
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8192, don't fret as you can still get a high hashrate.
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Delete any .bin files so you're starting from scratch and see what bins get
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generated.
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First try without any thread concurrency or even shaders, as cgminer will try to
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find an optimal value
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cgminer -I 13
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If that starts mining, see what bin was generated, it is likely the largest
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meaningful TC you can set.
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Starting it on mine I get:
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scrypt130302Tahitiglg2tc22392w64l8.bin
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See tc22392 that's telling you what thread concurrency it was. It should start
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without TC parameters, but you never know. So if it doesn't, start with
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--thread-concurrency 8192 and add 2048 to it at a time till you find the highest
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value it will start successfully at.
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Then start overclocking the eyeballs off your memory, as 7970s are exquisitely
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sensitive to memory speed and amazingly overclockable but please make sure it
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keeps adequately cooled with --auto-fan! Do it while it's running from the GPU
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menu. Go up by 25 at a time every 30 seconds or so until your GPU crashes. Then
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reboot and start it 25 lower as a rough start. Mine runs stable at 1900 memory
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without overvolting. Overvolting is the only thing that can actually damage your
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GPU so I wouldn't recommend it at all.
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Then once you find the maximum memory clock speed, you need to find the sweet
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spot engine clock speed that matches it. It's a fine line where one more MHz
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will make the hashrate drop by 20%. It's somewhere in the .57 - 0.6 ratio range.
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Start your engine clock speed at half your memory clock speed and then increase
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it by 5 at a time. The hashrate should climb a little each rise in engine speed
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and then suddenly drop above a certain value. Decrease it by 1 then until you
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find it climbs dramatically. If your engine clock speed cannot get that high
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without crashing the GPU, you will have to use a lower memclock.
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Then, and only then, bother trying to increase intensity further.
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My final settings were:
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--gpu-engine 1141 --gpu-memclock 1875 -I 20
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for a hashrate of 745kH.
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Note I did not bother setting a thread concurrency. Once you have the magic
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endpoint, look at what tc was chosen by the bin file generated and then hard
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code that in next time (eg --thread-concurrency 22392) as slight changes in
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thread concurrency will happen every time if you don't specify one, and the tc
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to clock ratios are critical!
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Good luck, and if this doesn't work for you, well same old magic discussion
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applies, I cannot debug every hardware combo out there.
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Your numbers will be your numbers depending on your hardware combination and OS,
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so don't expect to get exactly the same results!
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---
|
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|
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While BTC donations are preferred, if you wish to donate to the author, Con
|
|
|
|
Kolivas, in LTC, please submit your donations to:
|
|
|
|
|
|
|
|
Lc8TWMiKM7gRUrG8VB8pPNP1Yvt1SGZnoH
|
|
|
|
|
|
|
|
Otherwise, please donate in BTC as per the main README.
|