Cobble is a domain-specific language for quantum block encodings that compiles high-level matrix expressions to optimized circuits using analyses and quantum singular value transformation, achieving 2.6x-25.4x speedups over unoptimized baselines on benchmarks.
Preskill, Quantum Computing in the NISQ era and beyond, Quantum 2 (2018) 79
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A conceptual proposal to implement finite-state classical logic machines by mapping Boolean operations onto the population and coherence dynamics of a two-level atomic system analyzed via the Liouville equation.
A synthesis of expert insights from the ADAC Quantum Computing Working Group and member survey on the complementary roles of quantum and classical high-performance computing in future hybrid infrastructures.
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Cobble: Compiling Block Encodings for Quantum Computational Linear Algebra
Cobble is a domain-specific language for quantum block encodings that compiles high-level matrix expressions to optimized circuits using analyses and quantum singular value transformation, achieving 2.6x-25.4x speedups over unoptimized baselines on benchmarks.
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Implementation of Finite state logic machines via the dynamics of atomic systems
A conceptual proposal to implement finite-state classical logic machines by mapping Boolean operations onto the population and coherence dynamics of a two-level atomic system analyzed via the Liouville equation.
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The Role of Quantum Computing in Advancing Scientific High-Performance Computing: A perspective from the ADAC Institute
A synthesis of expert insights from the ADAC Quantum Computing Working Group and member survey on the complementary roles of quantum and classical high-performance computing in future hybrid infrastructures.