A brief summary of the various unique capabilities of the Panvia Quantum Computer organized in 10 highlight subjects and customer oriented / objective viewpoints.
Quantum energy exists as a duality of particle and wave and so energy can travel forwards in time via either domain to arrive at the optimal point in the future time and space having computed all paths in parallel while for it no time has elapsed.
Tensor inner product, matrix multiplicaton, convolution and last layer activation can all be computed with fewer operations in the Panvia Quantum Computer because wave superposition allows many separate data items to be processed in a single representation.
Panvia wave domain qubits are generated from many different data types including ASCII, binary, digital signal, Boolean, time domain, sensor and even DNA & RNA. In addition any digital record may be represented as a unique qubit by its SHA-2+ 800 bit hash code digest.
Different data type items can be stored, searched, added, deleted etc. as separate layered qubits in the same quantum wave register. In addition, each qubit may have actionable payload items when it matches a program operation such as search.
QUAIL, Quantum Auto Inference Language, is an open source Application Programming Interface (API) with JSON schema for remote authorized user command line programming via any device with Python. Example Python code for constructing nested conditional QUAIL structured data API commands, dispatching to remote IP address of Panvia Quantum Computer and receiving structured data responses.
A complete set of essential operations, quantum gates including CNOT, conditional rotations and Hadamard plus dot product, matrix multiply, convolution, correlation and tensor product. In addition solving Four Color Problem and Spin Glass type networks of qubits.
Windows Visual Studio C++ Application runs the Panvia Quantum Computer and data store with GPU acceleration serving multiple remote clients. Source C++ code for Windows server application with built-in internet services of web sever HTTP, file server FTP, mail server SMTP and user authentication protocol allows full customization of the Panvia Quantum Computer for your private cloud and secure server needs.
Quantum gates such as the CNOT or conditional-NOT gate behave differently to digital logic gates (eg. NAND, OR, XOR) used in all modern semiconductor integrated circuits. Developing an understanding how the new quantum gate behavior works in practice can be very challenging and confusing without an actual quantum computer to run, program, experiment and validate quantum gate circuits.
Noisy Intermediate Stage Quantum (NISQ) computers have been around for close to 20 years and are now being recognized to have largely failed to deliver a useful quantum computer. Challenges include: high error rates that require error correction and consequently decimate the number of useful qubits; quantum gates limited by distance and functionality; high cost of supporting the fragile cryogenic circuit; not scalable or economic as a future quantum technology track.
Whatever your field, from medicine to marketing, earth science to financial markets up to now it lacked the tools to model the behavior & predict how extremely complex dynamically evolving systems work. Quantum computers exactly fit this purpose since the qubits collectively interact in all possible scenarios as an emergent behavior of the quantum algorithm that is running in the Panvia Quantum Computer. Your own custom quantum algorithms are your intellectual property and competitive advantage.
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