analog to the rescue
infinityQ develops quantum analog computing solutions, able to tackle increasingly complex problems faster, with ultralow power consumption
this is quantum analog
To create a doppelganger of a twolevel quantum system, we utilize analog circuitry. Those artificial atoms are scalable to produce, connect, and devoid of the bottlenecks of current quantum approaches. It is energy efficient, allowing us to create a resilient technology
key features

superposition: 2^N states to explore space of possible solutions (where N= number of qubits)

no error correction needed
resilient analog circuits

highly scalable to produce

easy to integrate

operates at room temperature
alltoall collective computing

alltoall connectivity

all artificial atoms are devoted to computation
the
infinityQube
creating a quantum twolevel system
twin peaks
that’s superposition, but how?
we built our qubits to represent the dynamics of an electron in an atom in lambda configuration
we created a topology where all qubits are connected to one another
noise is absorbed by the system, no need for error correction
coming 2022...
C per
our first quantum analog chip
quantum analog in action: TSP tackled
got proof? while classical computers require exponential time to solve for more cities in the TSP, our prototype infinityQube can optimize for 128 cities.
expert take on infinityQ
infinityQ is a disruptive innovator
“Rather than following the traditional quantum paradigm, the team has proposed an alternative to the quantum conundrum — if successful it may provide quantumlike computation to industries that need it now. Their approach has the potential to accelerate much needed breakthrough discoveries in science, biotechnology, pharma, financial markets, as well as safety and environmental applications.”