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==Functionality== | ==Functionality== | ||
Quantum Computers perform task which are intractable for classical computers. The basic question here would be, "How should one verify the result of a quantum computer? This task is known as quantum verification or verification of quantum computation. [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:B#bqp BQP] is the class of problems that can be solved by a quantum computer and [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:B#bpp BPP] is the class of problems that can be solved by a classical computer. BPP is contained in BQP and hence, there are problems a quantum computer would solve that are intractable for a classical computer, to put it simply. Thus, if in future, an untrusted company claims to have built a quantum computer, how can the consumer be sure of the [correctness] of the results when he/she (the consumer) cannot compare the results predicted by the proposed quantum computer? This problem is addressed by the functionality, 'verification of quantum computers'. <br/> | Quantum Computers perform task which are intractable for classical computers. The basic question here would be, "How should one verify the result of a quantum computer? This task is known as quantum verification or verification of quantum computation. [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:B#bqp BQP] is the class of problems that can be solved by a quantum computer and [https://complexityzoo.uwaterloo.ca/Complexity_Zoo:B#bpp BPP] is the class of problems that can be solved by a classical computer. BPP is contained in BQP and hence, there are problems a quantum computer would solve that are intractable for a classical computer, to put it simply. Thus, if in future, an untrusted company claims to have built a quantum computer, how can the consumer be sure of the [https://people.eecs.berkeley.edu/~sanjamg/classes/cs276-fall14/scribe/lec09.pdf correctness] of the results when he/she (the consumer) cannot compare the results predicted by the proposed quantum computer? This problem is addressed by the functionality, 'verification of quantum computers'. <br/> | ||
'''Tags:''' [[:Category: Quantum Functionality|Quantum Functionality]], [[Category: Quantum Functionality]] [[:Category:Universal Task|Universal Task]][[Category:Universal Task]] | '''Tags:''' [[:Category: Quantum Functionality|Quantum Functionality]], [[Category: Quantum Functionality]] [[:Category:Universal Task|Universal Task]][[Category:Universal Task]] | ||