The Problem with Quantum Computers – Scientific American Blog Network
By now, most people have heard that quantum computing is a revolutionary technology that leverages the bizarre characteristics of quantum mechanics to solve certain problems faster than regular computers can. Those problems range from the worlds of mathematics to retail business, and physics to finance. If we get quantum technology right, the benefits should lift the entire economy and enhance U.S. competitiveness.
The promise of quantum computing was first recognized in the 1980s yet remains unfulfilled. Quantum computers are exceedingly difficult to engineer, buildand program. As a result, they are crippled by errors in the form of noise, faultsand loss of quantum coherence, which is crucial to their operation and yet falls apart before any nontrivial program has a chance to run to completion.
This loss of coherence (called decoherence), caused by vibrations, temperature fluctuations, electromagnetic waves and other interactions with the outside environment, ultimately destroys the exotic quantum properties of the computer. Given the current pervasiveness of decoherence and other errors, contemporary quantum computers are unlikely to return correct answers for programs of even modest execution time.
While competing technologies and competing architectures are attacking these problems, no existing hardware platform can maintain coherence and provide the robust error correction required for large-scale computation. A breakthrough is probably several years away.
The billion-dollar question in the meantime is, how do we get useful results out of a computer that becomes unusably unreliable before completing a typical computation?
Answers are coming from intense investigation across a number of fronts, with researchers in industry, academia and the national laboratories pursuing a variety of methods for reducing errors. One approach is to guess what an error-free computation would look like based on the results of computations with various noise levels. A completely different approach, hybrid quantum-classical algorithms, runs only the most performance-critical sections of a program on a quantum computer, with the bulk of the program running on a more robust classical computer. These strategies and others are proving to be useful for dealing with the noisy environment of todays quantum computers.
While classical computers are also affected by various sources of errors, these errors can be corrected with a modest amount of extra storage and logic. Quantum error correction schemes do exist but consume such a large number of qubits (quantum bits) that relatively few qubits remain for actual computation. That reduces the size of the computing task to a tiny fraction of what could run on defect-free hardware.
To put in perspective the importance of being stingy with qubit consumption, todays state-of-the-art, gate-based quantum computers, which use logic gates analogous to those forming the digital circuits found in the computer, smartphoneor tablet youre reading this article on, boast a mere 50 qubits. That is just a tiny fraction of the number of classical bits your device has available to it, typically hundreds of billions.
TAMING DEFECTS TO GET SOMETHING DONE
The trouble is, quantum mechanics challenges our intuition. So we struggle to figure out the best algorithms for performing meaningful tasks. To help overcome these problems, our team at Los Alamos National Laboratory is developing a method to invent and optimize algorithms that perform useful tasks on noisy quantum computers.
Algorithms are the lists of operations that tell a computer to do something, analogous to a cooking recipe. Compared to classical algorithms, the quantum kind are best kept as short as possible and, we have found, best tailored to the particular defects and noise regime of a given hardware device. That enables the algorithm to execute more processing steps within the constrained time frame before decoherence reduces the likelihood of a correct result to nearly zero.
In our interdisciplinary work on quantum computing at Los Alamos, funded by the Laboratory Directed Research and Development program, we are pursuing a key step in getting algorithms to run effectively. The main idea is to reduce the number of gates in an attempt to finish execution before decoherence and other sources of errors have a chance to unacceptably reduce the likelihood of success.
We use machine learning to translate, or compile, a quantum circuit into an optimally short equivalent that is specific to a particular quantum computer. Until recently, we have employed machine-learning methods on classical computers to search for shortened versions of quantum programs. Now, in a recent breakthrough, we have devised an approach that uses currently available quantum computers to compile their own quantum algorithms. That will avoid the massive computational overhead required to simulate quantum dynamics on classical computers.
Because this approach yields shorter algorithms than the state of the art, they consequently reduce the effects of noise. This machine-learning approach can also compensate for errors in a manner specific to the algorithm and hardware platform. It might find, for instance, that one qubit is less noisy than another, so the algorithm preferentially uses better qubits. In that situation, the machine learning creates a general algorithm to compute the assigned task on that computer using the fewest computational resources and the fewest logic gates. Thus optimized, the algorithm can run longer.
This method, which has worked in a limited setting on quantum computers now available to the public on the cloud, also takes advantage of quantum computers superior ability to scale-up algorithms for large problems on the larger quantum computers envisioned for the future.
New work with quantum algorithms will give both experts and nonexperts the tools to perform calculations on a quantum computer. Application developers can begin to take advantage of quantum computings potential for accelerating execution speed beyond the limits of conventional computing. These advances may bring us all several steps closer to having robust, reliable large-scale quantum computers to solve complex real-world problems that bring even the fastest classical computers to their knees.
Read more:
The Problem with Quantum Computers - Scientific American Blog Network
- Microsoft's claims over its quantum chip questioned in Nature article - BBC - June 26th, 2026 [June 26th, 2026]
- A new vision for quantum computing takes a big step forward, with new grant - YaleNews - June 26th, 2026 [June 26th, 2026]
- Uncertain quantum future presents existential threat to US military missions, DOD warns - DefenseScoop - June 26th, 2026 [June 26th, 2026]
- University of Maryland Grant Targets Quantum and AI Tools for Cancer Research - The Quantum Insider - June 26th, 2026 [June 26th, 2026]
- A Quantum Leap: The Technology Trying to Reinvent the Computer - marketscreener.com - June 26th, 2026 [June 26th, 2026]
- Meeting Trump's 2030 Quantum Deadline Will be Expensive, Complex - Dark Reading - June 26th, 2026 [June 26th, 2026]
- Trump Executive Orders Home in on Useful Quantum Computing - govtech.com - June 26th, 2026 [June 26th, 2026]
- Will operationalized quantum computing hit the public soon? - IT Brew - June 26th, 2026 [June 26th, 2026]
- Pentagon Sets Hard 2031 Deadline for Quantum-Resistant Encryption, Names Nuclear Command at Risk - Tech Times - June 26th, 2026 [June 26th, 2026]
- New R Street Study Warns U.S. Critical Infrastructure Is Running Out of Time to Prepare for Quantum Threats - R Street Institute - June 26th, 2026 [June 26th, 2026]
- The U.S. Government Is Betting Billions on Quantum Computing. These 3 Stocks Are the Biggest Winners. - The Motley Fool - June 26th, 2026 [June 26th, 2026]
- Quantum Computing Stocks IonQ, Rigetti Computing, and D-Wave Quantum Sent Shockwaves Through Wall Street With This $857 Million Warning - Yahoo... - June 26th, 2026 [June 26th, 2026]
- Trump Wants to Aggressively Fast Track Quantum Computing Projects - Yahoo Finance - June 26th, 2026 [June 26th, 2026]
- Trumps Orders Intended to Advance US Quantum Computing Industry - The Well News - June 26th, 2026 [June 26th, 2026]
- Quantum Computing Stocks IonQ, Rigetti Computing, and D-Wave Quantum Sent Shockwaves Through Wall Street With This $857 Million Warning - The Motley... - June 26th, 2026 [June 26th, 2026]
- The PQC Silicon Is Here Today for Tomorrows Quantum Threats - EE Times - June 26th, 2026 [June 26th, 2026]
- Texas A&M Supercomputer Named Most Powerful Among US Universities - HPCwire - June 26th, 2026 [June 26th, 2026]
- Executive orders lift Colorados quantum stocks and aspirations - Colorado Public Radio - June 24th, 2026 [June 24th, 2026]
- A new quantum computer sets a high watermark for accuracy are we on the verge of a big breakthrough? - The Conversation - June 24th, 2026 [June 24th, 2026]
- Bull and Alice & Bob Partner up to Bring Quantum Computers into HPC - The Quantum Insider - June 24th, 2026 [June 24th, 2026]
- Why Investors Are Finally Separating Quantum Computing Winners From Losers - 24/7 Wall St. - June 24th, 2026 [June 24th, 2026]
- With major conference in town, Mass. seeks to boost quantum computing efforts - The Boston Globe - June 24th, 2026 [June 24th, 2026]
- Quantum Computing Is Finally Here. But What Is It? - Bloomberg.com - June 24th, 2026 [June 24th, 2026]
- Trump signs executive orders to 'supercharge' quantum computing - ABC News - Breaking News, Latest News and Videos - June 24th, 2026 [June 24th, 2026]
- Trump Fast-Tracks Quantum Computing With New Executive Orders - Barron's - June 24th, 2026 [June 24th, 2026]
- Quantum computer furthers healthcare research at Cleveland Clinic - Spectrum News - June 24th, 2026 [June 24th, 2026]
- Chicago Missed the Tech Boom. Quantum Computing Gives It a Second Chance. - WSJ - June 24th, 2026 [June 24th, 2026]
- Quantum computing is often seen as a risk to bitcoin. Now Trump wants to develop it. - CoinDesk - June 24th, 2026 [June 24th, 2026]
- Trump Seeks to Boost Quantum Computing With New Executive Orders - WSJ - June 24th, 2026 [June 24th, 2026]
- The Mathematical Tools Trailblazing the Quantum Future - Simons Foundation - June 24th, 2026 [June 24th, 2026]
- D-Wave Quantum: Trumps Orders Make This Speculative Buy Worth Watching (NYSE:QBTS) - Seeking Alpha - June 24th, 2026 [June 24th, 2026]
- Executive orders seek to hasten quantum computingand guard against its use - Defense One - June 24th, 2026 [June 24th, 2026]
- Physicist reacts to Trump executive order calling for a quantum computer - NBC News - June 24th, 2026 [June 24th, 2026]
- 3 Quantum Computing Stocks With More Upside Than SpaceX - Yahoo Finance - June 24th, 2026 [June 24th, 2026]
- Quantum Computing Stocks Mixed Amid Trump Executive Orders, 2028 Target - Investor's Business Daily - June 24th, 2026 [June 24th, 2026]
- The US government wants a working quantum computer by 2028 and quantum-resistant encryption by 2031 - TechSpot - June 24th, 2026 [June 24th, 2026]
- Donald Trump Signs Quantum Computing Orders What Could It Mean for Bitcoin and XRP? - Yahoo Finance - June 24th, 2026 [June 24th, 2026]
- QuantWare and Maybell Partner to Maximize Compute-Per-Watt Performance of VIO-40K systems - The Quantum Insider - June 24th, 2026 [June 24th, 2026]
- Quantum computing is finally here. But what is it? - BusinessWorld Online - June 24th, 2026 [June 24th, 2026]
- White House Looks to Speed Up Transition to Quantum Computing with Pair of Executive Orders - PYMNTS.com - June 24th, 2026 [June 24th, 2026]
- The post-quantum EO is an important milestone. Now its time to get to work - The Cloudflare Blog - June 24th, 2026 [June 24th, 2026]
- Quantum Motion and NVIDIA Simplify Molecular Modeling on Quantum Computers - ForkLog - June 24th, 2026 [June 24th, 2026]
- The Path to Quantum Advantage Is Built on Readiness, Not Hype, IBM Report Suggests - The Quantum Insider - June 22nd, 2026 [June 22nd, 2026]
- Is the Dogecoin Burn Address Really Safe from Quantum Threat? - Cryptonews.net - June 22nd, 2026 [June 22nd, 2026]
- GCS highlights exascale, AI factories and hybrid computing at ISC 2026 - Scientific Computing World - June 22nd, 2026 [June 22nd, 2026]
- Amazon Says Commercially Useful Quantum Computers Are Moving Closer To Becoming a Reality - International Business Times - June 22nd, 2026 [June 22nd, 2026]
- QBTS vs. RGTI vs. IONQ: Which Quantum Computing Stock Could Deliver the Biggest Returns? - TipRanks - June 19th, 2026 [June 19th, 2026]
- Xanadu Quantum vs. IonQ: The Better Quantum Computing Stock Buy for 2026 - Yahoo Finance - June 19th, 2026 [June 19th, 2026]
- AMD Advances the Hybrid Future of Quantum Computing - AMD - June 19th, 2026 [June 19th, 2026]
- Algorand Wants to Be Quantum-Proof by 2027, Three Years Before the NSA - International Business Times - June 19th, 2026 [June 19th, 2026]
- Sooner than expected? Useful quantum error correction promised for 2028. - Ars Technica - June 19th, 2026 [June 19th, 2026]
- QuEra targets fault-tolerant quantum computing with new Libra system and expanded AWS partnership - New Electronics - June 19th, 2026 [June 19th, 2026]
- Atom Computing and Nu Quantum Partner to Scale Neutral Atom Quantum Computers - The Quantum Insider - June 19th, 2026 [June 19th, 2026]
- Quantum hyperdimensional computing can work 500 times faster than other methods - Phys.org - June 19th, 2026 [June 19th, 2026]
- Algorand Plans to Be Ready for Quantum Computing Threat by End of 2027 - Decrypt - June 19th, 2026 [June 19th, 2026]
- New Industry Study Finds Quantum Computing Has Entered a Capability Era, With Early Movers Building an Advantage Later Entrants Will Struggle to Close... - June 19th, 2026 [June 19th, 2026]
- Prediction: This Quantum Computing Stock Is Going to Plummet in the Second Half of 2026 - Yahoo Finance - June 19th, 2026 [June 19th, 2026]
- Cleveland Clinic & IBM Forum Charts AI And Quantum Impact On Detection - Quantum Zeitgeist - June 19th, 2026 [June 19th, 2026]
- Diraq Expands U.S. Presence with Palo Alto Office - The Quantum Insider - June 19th, 2026 [June 19th, 2026]
- Xanadu Quantum vs. IonQ: The Better Quantum Computing Stock Buy for 2026 - The Motley Fool - June 19th, 2026 [June 19th, 2026]
- Almost every encrypted secret being protected today banking records, classified government cables is expected to become readable within the next... - June 19th, 2026 [June 19th, 2026]
- This AI Learned the Laws of Physics and Could Accelerate Quantum Computing Breakthroughs - SciTechDaily - June 19th, 2026 [June 19th, 2026]
- Helios quantum computer tops 99.9% fidelity rates for one- and two-qubit operations - Phys.org - June 19th, 2026 [June 19th, 2026]
- This Beaten-Down Quantum Stock Is Gaining Fans. Theyre Starting to Figure It Out. - Barron's - June 16th, 2026 [June 16th, 2026]
- Are useful and error-free quantum computers only two years away? - New Scientist - June 16th, 2026 [June 16th, 2026]
- Quantum Pulse Ventures Expanded Photonic Infrastructure Platform Boosts Optical Connectivity Via Scalable, Low Loss Integrated Optical Applications -... - June 16th, 2026 [June 16th, 2026]
- Quobly secures 115M to advance silicon-based quantum computers - Evertiq - June 16th, 2026 [June 16th, 2026]
- The U.S. government is betting $2 Billion on quantum computing, and the defense side can't keep up - CoinDesk - June 16th, 2026 [June 16th, 2026]
- IonQ, Rigetti, and D-Wave Are Surging Again. Is Quantum Computing Finally Real? - The Motley Fool - June 16th, 2026 [June 16th, 2026]
- Quantum Threat to Crypto Is Not Here Yet, but Coinbase Advisory Board Says the Time to Prepare Is Now - The Quantum Insider - June 16th, 2026 [June 16th, 2026]
- Researchers Develop Theory for Improved Quantum Error Correction with Non-Isometric Codes - Quantum Zeitgeist - June 16th, 2026 [June 16th, 2026]
- 5 Best Computer Hardware Stocks to Buy for the Next 5 Years - Insider Monkey - June 16th, 2026 [June 16th, 2026]
- QuEra Announces 2028 Fault-Tolerant Quantum Computer and Expanded Multi-Year Strategic Collaboration with AWS - The Quantum Insider - June 16th, 2026 [June 16th, 2026]
- QuEra Announces 2028 Fault-Tolerant Quantum Computer and Expanded Multi-Year Strategic Collaboration with AWS - PR Newswire - June 16th, 2026 [June 16th, 2026]
- IQM Quantum Computer Goes Live at Supercomputing Center CINECA in Italy, Boosting National Compute Infrastructure and Research - Yahoo Finance - June 16th, 2026 [June 16th, 2026]
- Quera Announces 2028 Fault-Tolerant Quantum Computer And Expanded Multi-Year Strategic Collaboration With AWS - TradingView - June 16th, 2026 [June 16th, 2026]
- Quantum Computing Looks Like Nvidia in 2019. This Could Be the Generational Buy of the Decade. - Barchart.com - June 12th, 2026 [June 12th, 2026]
- AI helps reveal large-scale quantum effects hidden in stacked atomic sheets - Phys.org - June 12th, 2026 [June 12th, 2026]
- Quantum Computing Threat Elevates Cryptography to Board-Level Risk Oversight - WSJ - June 12th, 2026 [June 12th, 2026]
- Why Google (GOOGL) Rejected the $2 Billion U.S. Quantum Funding Program Over Speed Concerns - TipRanks - June 12th, 2026 [June 12th, 2026]