- QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE VERIFICATION
- QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE SOFTWARE
- QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE CODE
- QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE ISO
Kevin Murphy on Slowdown, But No Correction.Ami Vider on Open-Source Hardware Momentum Builds.Scott on UCIe: Marketing Ruins It Again.2cents on Architecting Faster Computers.Ron Lavallee on Architecting Faster Computers.Andy on Verifying Side-Channel Security Pre-Silicon.David Joshua Plager, AIA, NCARB on Breaking The 2nm Barrier.S Pietri on Energy Harvesting Starting To Gain Traction.reyhan on A Novel Power-Saving Reversing Camera System with Artificial Intelligence Object Detection.Ken Rygler on Photomask Shortages Grow At Mature Nodes.Marcos Tadeu Scaff on Zonal Architectures Play Key Role In Vehicle Security.Chris Riches on Photomask Shortages Grow At Mature Nodes.WEC on Hiding Security Keys Using ReRAM PUFs.Steve on Energy Harvesting Starting To Gain Traction.Andrew Nambudripad on Open-Source Hardware Momentum Builds.Riko Radojcic on Paving The Way To Chiplets.brad jackson on Paving The Way To Chiplets.David on Seven Hardware Advances We Need to Enable The AI Revolution.Chris Ethen on Big Changes In Materials And Processes For IC Manufacturing.Laura Peters on Big Changes In Materials And Processes For IC Manufacturing.
QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE VERIFICATION
Ron Lavallee on The Challenges Of Incremental Verification.Florian on Big Changes In Materials And Processes For IC Manufacturing.Katherine Derbyshire on Hiding Security Keys Using ReRAM PUFs.Balvinder Singh on The Challenge Of Optimizing Chip Architectures For Workloads.Dean Freeman on Wafer Shortage Improvement In Sight For 300mm, But Not 200mm.Santosh Kurinec on Will Big Competition Attract More Talent For IC Companies?.What Does The Antitrust Law Do For Baseball? on Power Aware Intent And Structural Verification Of Low-Power Designs.
QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE ISO
Sumit on Four Steps To ISO 26262 Safety Mechanism Insertion And Validation.Kamil Bro on Energy Harvesting Starting To Gain Traction.Jacques Baudier on Are Tiny MicroLEDs The Next Big Thing For Displays?.Kevin Cameron on Can Analog Make A Comeback?.Gareth on Energy Harvesting Starting To Gain Traction.Simon on DRAM Thermal Issues Reach Crisis Point.Obviously silly on DRAM Thermal Issues Reach Crisis Point.Pedro Ferro Laks on SOT-MRAM To Challenge SRAM.Geeeeeee on DRAM Thermal Issues Reach Crisis Point.David Leary on DRAM Thermal Issues Reach Crisis Point.Cox on DRAM Thermal Issues Reach Crisis Point.
Dev Gupta on Variation Making Trouble In Advanced Packages
QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE SOFTWARE
Visit Semiconductor Engineering’s Technical Paper library here and discover many more chip industry academic papers.Ģ.5D 5G 7nm AI ANSYS Apple Applied Materials ARM Atrenta automotive business Cadence EDA eSilicon EUV finFETs GlobalFoundries IBM IMEC Intel IoT IP Lam Research machine learning memory Mentor Mentor Graphics Moore's Law Nvidia NXP OneSpin Solutions Qualcomm Rambus Samsung security SEMI Siemens Siemens EDA software Sonics Synopsys TSMC UMC verification Xilinx
QUANTUM ERROR CORRECTION THRESHOLD FOR SURFACE CODE CODE
Quantum logic with spin qubits crossing the surface code threshold. Having surpassed the 99% barrier for the two-qubit gate fidelity, semiconductor qubits are well positioned on the path to fault tolerance and to possible applications in the era of noisy intermediate-scale quantum devices.”įind the open access technical paper here. Using this high-fidelity gate set, we execute the demanding task of calculating molecular ground-state energies using a variational quantum eigensolver algorithm5. The average single-qubit gate fidelities remain above 99% when including crosstalk and idling errors on the neighbouring qubit.
Here we report a spin-based quantum processor in silicon with single-qubit and two-qubit gate fidelities, all of which are above 99.5%, extracted from gate-set tomography. These qubits are promising for scaling, as they can leverage advanced semiconductor technology. Reaching two-qubit gate fidelities above 99% has been a long-standing major goal for semiconductor spin qubits. Whereas the actual threshold depends on many details, a common target is the approximately 1% error threshold of the well-known surface code. The central requirement for fault tolerance is expressed in terms of an error threshold. “High-fidelity control of quantum bits is paramount for the reliable execution of quantum algorithms and for achieving fault tolerance-the ability to correct errors faster than they occur. New research paper from QuTech, Delft University of Technology.
0 kommentar(er)
