Checking and testing the logic multiple times would zero in on the errors. Once you've identified where the problems lie, it's time to refine your algorithm's logic. Logical errors can be tricky ...

By doing so, you create a solid foundation for your algorithm that minimizes errors and maximizes efficiency. Logical reasoning is the backbone of effective algorithm design. It allows us to break ...

We have entered the start of new era of error corrected quantum computers. There has been a journal Nature paper on the work of a 48 logical qubit error corrected ...

There's widespread agreement that most useful quantum computing will have to wait for the development of error-corrected qubits. Error correction involves ...

(Courtesy: Jon Chase/Harvard University) A quantum processor with 48 logical qubits that can execute algorithms while correcting errors in real time has been unveiled in the US. It was created by ...

LogicalReasoningAlgorithm(Situation) = IF ( ∀x (Situation(x) → GeneralStatement(x)) AND ∀x (SpecificInstance(x) → Situation(x)) THEN DeductiveReasoning ...

and executing hundreds of logical gate operations. Their system is the first demonstration of large-scale algorithm execution on an error-corrected quantum computer, heralding the advent of early ...

Abstract: The traditional majority-logic decoding (MLgD) based algorithms suffer error-floors for decoding non-binary LDPC codes with small column weights. This paper presents a bit-reliability based ...

This advancement, hailed as a potential turning point in the field, is the first demonstration of large-scale algorithm execution on an error-corrected quantum computer. Harvard’s breakthrough in ...