Probably Fair

Why You Can Trust the Results

Ever wonder if the house is secretly pulling the strings behind the scenes? We get it. That’s why we use a system that makes it physically impossible for us to cheat without everyone finding out. It’s all based on a concept called “Provably Fair,” which is basically a way for you to double-check our math whenever you feel like it.

The Secret Sauce: How It Actually Works

Instead of just making up numbers on the fly, we’ve pre-calculated a massive string of 10 million unique digital signatures, known as SHA256 hashes, for every single game. To build this chain, we started with a secret piece of data and ran it through a complex math grinder (the SHA256 function) over and over again, ten million times.

Because we’ve already locked in these sequences, we can’t go back and change a single result without breaking the entire chain. To prove we aren’t messing with the future, here are the final checkpoints for our current game rotations:

• For Roulette (starting from game #10,896,347), the final anchor is: f7df57c39b7b9000fb2276c5b722ae55c468523da00b1daffa218930bb403026
• For Hilo (beginning with game #18,000,001), the closing hash is: b4d6365b1ad18977a2ebd02c3430960c3e51443bf04af77d87766a434f2fbb57
• For Crash (kicking off at game #5,257,547), the terminal hash is: 1d75b6cfadffdfc7dea5b7ed2c463c909571430c8f08fd3d0042b66661a8e4fc

By putting these strings out in the open, we’ve essentially handcuffed ourselves. We’re now just working through that massive list in reverse order. Since the ending is already public, there’s no way for us to swap in a different “deck” mid-game.

Keeping Us Honest: How to Verify

You don’t have to take our word for it. In fact, we’d prefer if you didn’t! Once a round wraps up, we reveal the specific hash used for that game. If you take that hash and run it through a SHA256 calculator, the output should perfectly match the hash of the game that happened right before it. If the math checks out, you know the sequence is intact and we haven’t tampered with a thing.

If you’re tech-savvy or just curious, you can dig into the actual logic we use to turn these hashes into game outcomes. We’ve provided the blueprint for every game below:

• Keno: Look at the number selection process [via this link].
• Roulette: Dive into the verification code [at this link].
• Pocket Dice: Review the dice mechanics [right here].
• Dice: Inspect the math behind the rolls [over here].
• Plinko: Peek under the hood of the pegs [at this link].
• Crash: Check out the logic and hash generation [right here].
• Limbo: Audit the multiplier logic [found here].
• Hilo: See how the cards are calculated [through this link].
• Blackjack: See how the deck is shuffled and dealt [at this link].
• Mines: Verify the hidden bomb placements [using this link].

The Reality of Fairness

At the end of the day, every win or loss is already set in stone by the laws of cryptography. Because SHA256 is a “one-way” function that creates a naturally random distribution, the results are as fair as humanly possible. We are locked into a path we carved out millions of games ago, and because the proof is public, the power to catch us in a lie is entirely in your hands.