Demonstrations are the best proof of effectiveness possible, although you can also see videos below. The videos do not show the full capabilities of our computers with respect to accuracy, and how early predictions can be. You can see full capabilities in demonstrations.
Video 1: Public Demonstration With +120% Edge
We sometimes conduct public group demonstrations . This is to give people a better understanding of its capabilities, and to openly address false claims from unscrupulous sellers of other devices. Below is the most relevant part of a 4 hour public demonstration. This is the part after which the maximum accuracy of the computer is achieved, and betting is simulated.
When betting 3 neighbor bets (15 numbers), we won on almost every spin (93% win rate). We could have easily bet only 1-3 numbers.
Confirming the wheel has not been modified: The wheel was disassembled to show it hasn't been tampered with.
Video 2: Basic application on latest John Huxley Mk7 Wheel with Velstone Ball Track
This video shows very basic application of the previous Uber version computer, on one of the world's most common modern wheels. The simplest and least effective settings are used, which are the equivalent of our "Lite version" computer. The Uber version is capable of accurate predictions 3 seconds after ball release.
Video 3: Diamond targeting capability
This video demonstrates the computer's capability to target only spins where the ball hits a particular diamond. Our devices have had this capability since day one, although the technology behind it has greatly improved over the years.
Video 4: Automated Roulette Wheel Application
This video was originally not intended for public release - it was created for a player of ours. It demonstrates clear effectiveness on an automated wheel, where the ball is launched by an automated air compressor.
- Most important: throughout the video we display the computer's scatter chart. It shows how far the ball is landing from the "un-tuned" (raw) predictions. The relevance of this is that if the computer is effective, most of the bars will form in around the same area. Throughout the video, the area between +15 to -6 is clearly dominant. The computer automatically tunes itself the more it is applied (or it can be tuned manually). The chart at the end is as below:
1 : X X
2 : X X
7 : X X
10 : X
13 : X X
15 : X X X
16 : X X
17 : X X
18 : X
-18: X X X
-16: X X X
-15: X X X
-13: X X X
-10: X X
-9 : X
-8 : X X X X X
-7 : X
-6 : X X
-5 : X
-3 : X
-2 : X X
Even in light of all of the points addressed below, which would make other computers obsolete on this wheel, the predictions are still clearly accurate.
- Predictions are announced approximately 12-13 seconds before the ball falls.
- The wheel does NOT have any significant dominant diamonds. As such, it is considerably more difficult to beat than wheels where the ball tends to hit specific diamonds more than others.
Video 5: 100 Spin Test | Two Segments of 50 Spins
This demonstrates a much older version of our roulette computers.
Important points for consideration to validate the video's authenticity:
- The 100 spins are divided into two segments of 50 spins. The results are as follows:
i. First 50 Spins: 1 in 16 exact number hit rate
ii. Second 50 Spins: 1 in 16 exact number hit rate
The demonstration is split into two segments of exactly 50 spins so you can see the results are authentic. If they weren't, then the results would be very different between the two sets of 50 spins.
- Actual tuned predictions are shown, not raw predictions. This means the actual predicted number is shown, as it would be in the real casino environment.
- The footage is continuous and uncut which can be verified by the continuous movement of the lava lamp in the background.
- The computer's screen is shown displaying the prediction so you know predictions are authentic, and not merely audio added later.
- The computer's scatter chart is displayed so you can confirm groupings of high bars are in the predicted area.
- The wheel does not have any significant common ball drop point. It is neither perfectly level or heavily tilted - such a condition is most difficult to predict. This is because the computer can neither assume the wheel is mechanically perfect or heavily flawed.
- Virtually none of the computer's additional features that increase accuracy are used. Such features include but are not limited to:
i. Automatic adjustment of predictions based on wheel rotor speed for EACH spin.
ii. Risk announcement so the player knows when a particular prediction is likely to be less accurate than others.
- Predictions are made 4 - 7 seconds before the ball falls. The computer is capable of accurate predictions with 10+ seconds remaining until the ball falls.
- The wheel is not stopped. There is no common release point of the ball. Even if there was, it wouldn't matter because different diamonds are used as timing reference points between spins.
Video 6: Dealing with Flawed Manual Clicks to Establish Timings - Dispelling Myths
In this test we predict the same spin repeatedly, but each time a different reference point to establish timings is used. This video verifies our device copes with the inevitable errors associated with human clicks of a button to establish timings. It also verifies our ball and wheel deceleration algorithms are accurate, and that the hardware is suitable (hardware modified to ensure suitability).
The actual number that is predicted isn't important in this video demo. What's important is that whatever the predictions are, that they are very close to each other on the wheel.
NOTE: The device is kept in-view at all times throughout the demonstration. this verifies we did not manually input predictions to achieve the outstanding results.
Although this particular test is useful, it does NOT indicate the overall accuracy of a roulette computer. Even simplistic algorithms can achieve such results, although there is far more to a truly accurate roulette computer than the basic ball deceleration algorithm component.
IMPORTANT: If verifying the device's capability to process accurate timings is important for you, click here to see additional videos and comparisons with other devices which addresses false claims from other device sellers.
Video 7: Microprocessor Roulette Computer with Audio Predictions
This is one of the versions of roulette computers we've developed. This particular version uses a PIC microprocessor.
Most roulette computers are designed with such microprocessors because they:
- Are cheap to develop and program: in particularly the actual microchip is very cheap, only about $2 depending on the model used.
- Are small in size: the microchips are about the size of your fingernail.
- Process information very quickly: they process information with 0.000001 seconds accuracy, although this is not at all a significant advantage over other hardware because the differences in speed are still below 1MS, when individual manual timings can be as much as 60MS inaccurate.
While mobile phone technology processes data at a considerably slower rate, the difference is negligible (less than 1MS difference) because timings of multiple revolutions are taken, which almost eliminates timing errors. This, in combination with the ability to utilize more complex algorithms, is why we develop most of our technology on mobile phones. However, the mobile phones we use are modified to ensure suitability.
This microprocessor version is available for US$750, although it is unsuitable for modern wheels.
Video 11: Comparison of FFA (other vendor) device and Basic Computer
Our basic version computer (free for our system players) compared to the most expensive version from another computer developer.
Video 12: Hybrid V3 Remote Computer
This is our most advanced computer. The player wears a hidden camera which automatically determines the wheel and ball speed to predict the winning number. The video below is a basic explanation, but more details are at www.hybridroulettecomputer.com
Video 13: Hybrid V1 Roulette Computer
We've been developing roulette computers since around 2005. This video shows some of the equipment for our first version that automatically predicts spins.
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