also I forget to mention , that actually i have bought DCY from cryptopia and i did withdraw it through alpha btc , it was easy i just had to generate address through alpha btc , i'm still confusing about this coin and Cryptonote coin , so i don't understand how i can track my coins ? and which exchange i should ask , Cryptopia or Btc Alpha , and sorry maybe because i'm beginner , my only fault i wanted to make quick profit !!
Transfers of coins between exchanges (usually) are safe. But it depends more on the stock exchanges themselves. Cryptopia IMHO is a good reliable exchange, but it also has problems (delays) sometimes. Further, if the coin is sent from the exchange, it is sent successfully (usually).
I did not work with BTC-Alpha, but I think their support will solve your problem if you write to them.
In the future do not forget to specify the Payment ID.
Engage in arbitration is dangerous, because exchanges can (sometimes / often) block the deposit (temporarily).
Can you please help me? I want to mine for my cpu. I can not set up my wallet. I do not know which file to edit. Is not working. Can you help me with the correct link to mine for the CPU using Windows 64?
Which file should I configure? Can you send me the step by step?
Thank you!
use xmr-stack-cpu
https://github.com/fireice-uk/xmr-stak-cpu/releasesI use ver v1.3.0-1.5.0 (19 Jul 2017), new version do not like me.
I think, this most powerfull miner for CPU.
download
https://github.com/fireice-uk/xmr-stak-cpu/releases/download/v1.3.0-1.5.0/xmr-stak-cpu-win64.zipsetting may seem complicated, but it's worth it.
This miner allows you to start mining on all or part of the cores, which can be convenient.
Note that the Intel processor cores are numbered from zero: 0, 1, 2, etc. (It seems so, but I'm not sure).
The cores of AMD processors are numbered through the number of threads (through one).
For example, I have Ryzen-7, 8 cores, 16 threads.
I numbered the cores as follows: 1, 3, 5, 7, 9, 11, 13, 15.
But it is possible and so: 0, 2, 4, 6, 8, 10, 12, 14.
An example of my configuration:
config.txt/*
* Thread configuration for each thread. Make sure it matches the number above.
* low_power_mode - This mode will double the cache usage, and double the single thread performance. It will
* consume much less power (as less cores are working), but will max out at around 80-85% of
* the maximum performance.
*
* no_prefetch - Some sytems can gain up to extra 5% here, but sometimes it will have no difference or make
* things slower.
*
* affine_to_cpu - This can be either false (no affinity), or the CPU core number. Note that on hyperthreading
* systems it is better to assign threads to physical cores. On Windows this usually means selecting
* even or odd numbered cpu numbers. For Linux it will be usually the lower CPU numbers, so for a 4
* physical core CPU you should select cpu numbers 0-3.
*
* On the first run the miner will look at your system and suggest a basic configuration that will work,
* you can try to tweak it from there to get the best performance.
*
* A filled out configuration should look like this:
* "cpu_threads_conf" :
* [
* { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 0 },
* { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 1 },
* ],
*/
/* ----------------------------------------------------------------- */
"cpu_threads_conf":
[
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 1}, /* ядpo 1*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 3}, /* ядpo 2*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 5}, /* ядpo 3*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 7}, /* ядpo 4*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 9}, /* ядpo 5*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 11}, /* ядpo 6*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 13}, /* ядpo 7*/
{ "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 15} /* ядpo 8*/
],
"cpu_threads_conf": 8,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* LARGE PAGE SUPPORT
* Lare pages need a properly set up OS. It can be difficult if you are not used to systems administation,
* but the performace results are worth the trouble - you will get around 20% boost. Slow memory mode is
* meant as a backup, you won't get stellar results there. If you are running into trouble, especially
* on Windows, please read the common issues in the README.
*
* By default we will try to allocate large pages. This means you need to "Run As Administrator" on Windows.
* You need to edit your system's group policies to enable locking large pages. Here are the steps from MSDN
*
* 1. On the Start menu, click Run. In the Open box, type gpedit.msc.
* 2. On the Local Group Policy Editor console, expand Computer Configuration, and then expand Windows Settings.
* 3. Expand Security Settings, and then expand Local Policies.
* 4. Select the User Rights Assignment folder.
* 5. The policies will be displayed in the details pane.
* 6. In the pane, double-click Lock pages in memory.
* 7. In the Local Security Setting – Lock pages in memory dialog box, click Add User or Group.
* 8. In the Select Users, Service Accounts, or Groups dialog box, add an account that you will run the miner on
* 9. Reboot for change to take effect.
*
* Windows also tends to fragment memory a lot. If you are running on a system with 4-8GB of RAM you might need
* to switch off all the auto-start applications and reboot to have a large enough chunk of contiguous memory.
*
* On Linux you will need to configure large page support "sudo sysctl -w vm.nr_hugepages=128" and increase your
* ulimit -l. To do do this you need to add following lines to /etc/security/limits.conf - "* soft memlock 262144"
* and "* hard memlock 262144". You can also do it Windows-style and simply run-as-root, but this is NOT
* recommended for security reasons.
*
* Memory locking means that the kernel can't swap out the page to disk - something that is unlikey to happen on a
* command line system that isn't starved of memory. I haven't observed any difference on a CLI Linux system between
* locked and unlocked memory. If that is your setup see option "no_mlck".
*/
/*
* use_slow_memory defines our behaviour with regards to large pages. There are three possible options here:
* always - Don't even try to use large pages. Always use slow memory.
* warn - We will try to use large pages, but fall back to slow memory if that fails.
* no_mlck - This option is only relevant on Linux, where we can use large pages without locking memory.
* It will never use slow memory, but it won't attempt to mlock
* never - If we fail to allocate large pages we will print an error and exit.
*/
/* ----------------------------------------------------------------- */
"use_slow_memory" : "warn",
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* NiceHash mode
* nicehash_nonce - Limit the noce to 3 bytes as required by nicehash. This cuts all the safety margins, and
* if a block isn't found within 30 minutes then you might run into nonce collisions. Number
* of threads in this mode is hard-limited to 32.
*/
/* ----------------------------------------------------------------- */
"nicehash_nonce" : false,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Manual hardware AES override
*
* Some VMs don't report AES capability correctly. You can set this value to true to enforce hardware AES or
* to false to force disable AES or null to let the miner decide if AES is used.
*
* WARNING: setting this to true on a CPU that doesn't support hardware AES will crash the miner.
*/
/* ----------------------------------------------------------------- */
"aes_override" : null,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* TLS Settings
* If you need real security, make sure tls_secure_algo is enabled (otherwise MITM attack can downgrade encryption
* to trivially breakable stuff like DES and MD5), and verify the server's fingerprint through a trusted channel.
*
* use_tls - This option will make us connect using Transport Layer Security.
* tls_secure_algo - Use only secure algorithms. This will make us quit with an error if we can't negotiate a secure algo.
* tls_fingerprint - Server's SHA256 fingerprint. If this string is non-empty then we will check the server's cert against it.
*/
/* ----------------------------------------------------------------- */
"use_tls" : false,
"tls_secure_algo" : false,
"tls_fingerprint" : "",
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* pool_address - Pool address should be in the form "pool.supportxmr.com:3333". Only stratum pools are supported.
* wallet_address - Your wallet, or pool login.
* pool_password - Can be empty in most cases or "x".
*
* We feature pools up to 1MH/s. For a more complete list see M5M400's pool list at www.moneropools.com
*/
/* ----------------------------------------------------------------- */
"pool_address" : "poolmining1.dinastycoin.com:5555"
,
"wallet_address" : "YOUR_WALLET",
"pool_password" : "x",
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Network timeouts.
* Because of the way this client is written it doesn't need to constantly talk (keep-alive) to the server to make
* sure it is there. We detect a buggy / overloaded server by the call timeout. The default values will be ok for
* nearly all cases. If they aren't the pool has most likely overload issues. Low call timeout values are preferable -
* long timeouts mean that we waste hashes on potentially stale jobs. Connection report will tell you how long the
* server usually takes to process our calls.
*
* call_timeout - How long should we wait for a response from the server before we assume it is dead and drop the connection.
* retry_time - How long should we wait before another connection attempt.
* Both values are in seconds.
* giveup_limit - Limit how many times we try to reconnect to the pool. Zero means no limit. Note that stak miners
* don't mine while the connection is lost, so your computer's power usage goes down to idle.
*/
/* ----------------------------------------------------------------- */
"call_timeout" : 10,
"retry_time" : 10,
"giveup_limit" : 0,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Output control.
* Since most people are used to miners printing all the time, that's what we do by default too. This is suboptimal
* really, since you cannot see errors under pages and pages of text and performance stats. Given that we have internal
* performance monitors, there is very little reason to spew out pages of text instead of concise reports.
* Press 'h' (hashrate), 'r' (results) or 'c' (connection) to print reports.
*
* verbose_level - 0 - Don't print anything.
* 1 - Print intro, connection event, disconnect event
* 2 - All of level 1, and new job (block) event if the difficulty is different from the last job
* 3 - All of level 1, and new job (block) event in all cases, result submission event.
* 4 - All of level 3, and automatic hashrate report printing
*/
/* ----------------------------------------------------------------- */
"verbose_level" : 3,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Automatic hashrate report
*
* h_print_time - How often, in seconds, should we print a hashrate report if verbose_level is set to 4.
* This option has no effect if verbose_level is not 4.
*/
/* ----------------------------------------------------------------- */
"h_print_time" : 60,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Daemon mode
*
* If you are running the process in the background and you don't need the keyboard reports, set this to true.
* This should solve the hashrate problems on some emulated terminals.
*/
/* ----------------------------------------------------------------- */
"daemon_mode" : false,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Output file
*
* output_file - This option will log all output to a file.
*
*/
/* ----------------------------------------------------------------- */
"output_file" : "",
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* Built-in web server
* I like checking my hashrate on my phone. Don't you?
* Keep in mind that you will need to set up port forwarding on your router if you want to access it from
* outside of your home network. Ports lower than 1024 on Linux systems will require root.
*
* httpd_port - Port we should listen on. Default, 0, will switch off the server.
*/
/* ----------------------------------------------------------------- */
"httpd_port" : 0,
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
/*
* prefer_ipv4 - IPv6 preference. If the host is available on both IPv4 and IPv6 net, which one should be choose?
* This setting will only be needed in 2020's. No need to worry about it now.
*/
/* ----------------------------------------------------------------- */
"prefer_ipv4" : true
/* ----------------------------------------------------------------- */
/* ----------------------------------------------------------------- */
My bat-file like this
timeout /t 3
xmr-stak-cpu.exe
pause
P.S. forgot about one very important point.
You must allow the use of a large segment of memory, you need to add your user as in the picture.