An Engineering Algorithm For Chemical Accuracy With Shallow Quantum Circuits


A technical paper titled “Towards chemical accuracy with shallow quantum circuits: A Clifford-based Hamiltonian engineering approach” was published by researchers at California Institute of Technology (Caltech), Microsoft Research AI4Science Lab, and Tencent Quantum Lab. Abstract: "Achieving chemical accuracy with shallow quantum circuits is a significant challenge in quantum computationa... » read more

Chip Industry Silos Are Crimping Advances


Change is never easy, but it is more difficult when it involves organizational restructuring. The pace of such restructuring has been increasing over the past decade, and often it is more difficult to incorporate than technological advancements. This is due to the siloed nature of the semiconductor industry, both within the industry itself, and its relationship to surrounding industries. Inc... » read more

Getting Ready For The Quantum Computing Era: Thoughts On Hybrid Cryptography


Once quantum computers, more specifically Cryptographically Relevant Quantum Computers (CRQCs), have become powerful and reliable enough, they will enable adversaries to break current asymmetric encryption, placing important data and assets at risk. New digital signatures and key encapsulation mechanisms (KEMs) are needed, and while considerable progress has been made in recent years to develop... » read more

Post-Quantum Cryptography/PQC: New Algorithms For A New Era


Quantum computing is being pursued across industry, government and academia globally with tremendous energy, and powerful quantum computers will become a reality in the not-so-distant future. To ensure today’s data remains protected into the future, we need to implement now security solutions that safeguard against quantum attacks. Click here to read more. » read more

Leaps in Quantum Computing


There are new computers that are generating some amazing results for solving problems in record time.  You won’t see these computers on the classic Top500 lists though, because they aren’t approaching computing in the same way. Using quantum computing algorithms like Shor’s algorithm for factoring large numbers, quantum computing holds the promise of solving problems that take exponentia... » read more

Research Bits: October 24


Photonic-electronic hardware processes 3D data Researchers from the University of Oxford, University of Muenster, University of Heidelberg, and University of Exeter are developing integrated photonic-electronic hardware capable of processing three-dimensional data, which the team claims boosts data processing parallelism for AI tasks. The researchers added an extra parallel dimension to the... » read more

An Overview Of Current Projects In The Open Quantum Hardware Ecosystem With Recommendations 


A technical paper titled “Open Hardware in Quantum Technology” was published by researchers at Unitary Fund, Qruise, Technical University of Valencia, M-Labs Limited, Lawrence Berkeley National Laboratory, Fermi National Accelerator Laboratory, Sandia National Laboratories, IQM Quantum Computers, PASQAL, Quantonation, Michigan State University, Università di Camerino, Microsoft Quantum, an... » read more

The Race Toward Quantum Advantage


Quantum computing has yet to show an advantage over conventional computing, but huge sums of money are betting it will. So far that hasn't happened. Early quantum computers were created in the mid-1990s after mathematicians had demonstrated the effectiveness of applying quantum approaches to some problems. At that stage they were simulated using conventional computing, but it started the rac... » read more

The Utility Of Shallow Dynamic Circuits For Long-Range Entanglement On Large-Scale Quantum Devices


A technical paper titled “Efficient Long-Range Entanglement using Dynamic Circuits” was published by researchers at IBM Research, IBM T.J. Watson Research Center, University of Southern California, MIT-IBM Watson AI Lab, and IBM Quantum. Abstract: "Quantum simulation traditionally relies on unitary dynamics, inherently imposing efficiency constraints on the generation of intricate entangl... » read more

How A Fault-Tolerant Quantum Memory Could Be Realized Using Near-Term Quantum Processors With Small Qubit Overhead


A technical paper titled “High-threshold and low-overhead fault-tolerant quantum memory” was published by researchers at IBM T.J. Watson Research Center and MIT-IBM Watson AI Lab. Abstract: "Quantum error correction becomes a practical possibility only if the physical error rate is below a threshold value that depends on a particular quantum code, syndrome measurement circuit, and a decod... » read more

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