Qubulate

Your partner for synthetic quantum computing

Quantum computing promises to solve hugely complex multi-variable problems that are impossible for classical computers to handle.  It’s an exciting prospect, and research has come a long way, but quantum computers aren’t ready yet.  Today’s experimental quantum systems are still too small to be useful.

Synthetic quantum computing uses conventional computing elements to approximate the behavior of quantum computing.  With exceptionally inventive architectures and algorithms, we can manipulate data in ways that mimic the behavior of quantum machines.  These systems are slower than true quantum computers, but much larger and more capable.

Applications like cryptography, protein folding, and smart drug design can be addressed effectively with synthetic quantum computing.  Where standard computers might require centuries to sift through the possible solutions, synthetic quantum computers would need only hours.  A large “truly quantum” computer might accomplish the task in mere minutes, but until such a machine exists, synthetic quantum computing presents a remarkable opportunity to take on challenges at the very edge.

Qubulate’s patented technology performs synthetic quantum computing.  We combine standard computing elements in a unique multi-core architecture that can solve problems thousands of times faster than normal computers.

Our fully programmable architecture supports both integer and floating point operations.  Its smallest implementation contains 256 cores, but it can expand seamlessly to encompass as many as 134 million cores in a single system.

Qubulate sells both hardware and system time.  We currently provide user access to a 65,536-core platform.  Contact us now to learn more about this pioneering technology.