FREE BTC wallet collider -> brute forces random wallet addresses
by ybird1 - May 11, 2021 at 04:06 AM
Thanks a lot brooo thankssss
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(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.



This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
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tesnting us projet man , good job
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(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.



This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
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Im bored and have nothing to do, let me try
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Type your reply to this message here.
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(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.


This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
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Okay cool thanks looking forward to trying it out
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(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.



This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
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This is an interesting education exploration.
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hi thanks for sharing this hope you have a great day and
(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.



This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
[Hidden Content]
Reply
(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.



This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
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Hi, quick question when I say connect to hosted runtime does that dump the plutus.txt file once fountain my gdrive or hard drive? 

And how do I get it to dump or drop on my Gdrive instead? Thanks, fingers crossed and looking forward to it.
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this is probably a scam but f ittt
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(May 11, 2021 at 04:06 AM)ybird1 Wrote: A private key is a secret number that allows Bitcoins to be spent. If a wallet has Bitcoins in it, then the private key will allow a person to control the wallet and spend whatever balance the wallet has. So this program attempts to find Bitcoin private keys that correlate to wallets with positive balances. However, because it is impossible to know which private keys control wallets with money and which private keys control empty wallets, we have to randomly look at every possible private key that exists and hope to find one that has a balance.



This program is essentially a brute forcing algorithm. It continuously generates random Bitcoin private keys, converts the private keys into their respective wallet addresses, then checks the balance of the addresses. If a wallet with a balance is found, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive. The ultimate goal is to randomly find a wallet with a balance out of the 2160 possible wallets in existence.

How It Works



Private keys are generated randomly to create a 32 byte hexidecimal string using the cryptographically secure os.urandom() function.



The private keys are converted into their respective public keys using the starkbank-ecdsa Python module. Then the public keys are converted into their Bitcoin wallet addresses using the binascii and hashlib standard libraries.



A pre-calculated database of every P2PKH Bitcoin address with a positive balance is included in this project. The generated address is searched within the database, and if it is found that the address has a balance, then the private key, public key and wallet address are saved to the text file plutus.txt on the user's hard drive.



This program also utilizes multiprocessing through the multiprocessing.Process() function in order to make concurrent calculations.



Runs online no downloads needed
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where is the software i wanna try!
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Thanks for this post!  Tongue
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leta see if it works and did anyone receive btc
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