The statement by Cambridge Quantum Computing (Cambridge Quantum Computing / CQC) shows that we are on the verge of an important development. According to the statement, CQC opened the door of the new application area using quantum structures for natural language. In this field, we will be able to create question answering performance by converting sentences into quantum circuits and then using the resulting programs on a quantum computer. When applying natural language for the first time in a quantum computer, these results were achieved without quantum RAM. CQC scientists have developed a new path for this, called the ‘Noisy Intermediate-Scale Quantum’ region (NISQ – Loud Intermediate Scale Quantum). A giant step in the natural language processing process: Using CQC’s class-leading and cross-platform retardable compiler t | ket⟩, these programs were successfully run on IBM’s quantum computer. Thus, a remarkable step was taken towards reaching a ‘language aware’ and ‘language-wise’ natural language processing process. This is one of the things computer scientists have been dreaming of since the dawn of the computer age. CQC is looking forward to providing more details, including scaling of programs in the near future. This will enable the use of understandable sentences in NISQ machines. These can be scaled within themselves using quantum volumes and other quantum computers. Cambridge Quantum Computing is the world’s leading quantum computing software company. With offices in Cambridge, London, San Francisco, Washington and Tokyo, the company is developing tools to commercialize quantum technologies. The term Noisy Intermediate-Scale Quantum zone is used for devices that cannot be done on conventional computers, but are not large enough to run error-tolerant algorithms on quantum computers. These devices do not have enough quantum bits that they can allocate to fix bugs.
