What Is Quantum Computing?Quantum computing (QC), unlike classical computing where data is known as a bit which can be either 0 or a 1 thus giving it binary qualities, uses qubits instead of bits and they exist in any proportion of both states at the same time (superposition) and can be entangled or invisibly connected (i.e., if one qubit is altered, the other reacts at the same time allowing such computers to process vast amounts of information simultaneously) and this permits an enormous leap in processing power.Imagine a problem that would take even the world’s fastest supercomputer years to solve being solved in seconds. This is the promise of QC but, while today’s lead QC firms still haven’t cracked the code on qubits, the subatomic particles that will eventually replace binary 1s and 0s, the next renaissance in computing might not be far off. The Next Renaissance In Computing Might Not Be Far Off The QC industry is already pouring billions of dollars into research and development by companies and governments around the world but experts can’t come to a consensus as to when this disruptive technology become mainstream due to the difficulties to engineer, build, and program QC systems, including noise, faults, loss of quantum coherence, and of course the high price tag associated with QC systems.Some believe QC will be able to break any existing digital encryption as soon as 2029, representing a need to transition online infrastructure away from binary hardware while others speculate we won’t see commercially available QCs until 2050. Either way, however, this technology isn’t in the realm of impossibility. Whether the necessary breakthroughs arrive in a few years or a few decades, the age of QC seems inevitable.The QC industry is a rapidly evolving and expanding field with significant potential for growth and development in the coming years.
There is no established leader in QC at this point and the development of quantum hardware that accurately makes computations and meets a reasonable return on investment thresholds is still ongoing. 10 Non-Mega Cap Companies Heavily Involved In Quantum Computing R&DThere are close to 200 companies whose primary focus is on quantum Software according to The Quantum Insider, while just over 20 companies are working on quantum computer Processors and Chips. This article examines 10 of the latter, presented in descending order as to their respective market capitalization, that trade on American stock exchanges, and are heavily involved in the research and development of qubits.
- Market Capitalization: $204.4B
- Read: Tightened US rules throttle Alibaba and Baidu’s AI chip development
- Market Capitalization: $164.5B
- Read: AMD Is About To Launch The Most Powerful AI Chip In History
- Market Capitalization: $146.2B
- Read: Intel Looks at AI Tuning to Bolster Software Offerings
- Market Capitalization: $125.0B
- Read: AI Skills for All: How IBM Is Helping To Close the Digital Divide
- Market Capitalization: $120.4B
- Read: Honeywell & Supernal Join to Form Ground Control Station
- Market Capitalization: $73.8B
- Read: Micron Technology Memory Chip Prices Are Bouncing Back
- Market Capitalization: $37.3B
- Read: Baidu Claims Its AI Tech Matches ChatGPT. Alibaba Has Some Catching Up to Do
- Market Capitalization: $2.6B
- Read: IonQ to Report Third Quarter 2023 Financial Results on November 8, 2023
- Market Capitalization: $159.6M
- Read: Rigetti Computing Awarded Five-Year Contract with Air Force Research Lab for Quantum Foundry Services
- Market Capitalization: $115.5M
- Read: D-Wave Quantum Announces Progress in Development of High-Coherence Qubits
There are an additional 4 mega-cap companies very active in QC research and development which are part of the Magnificent Seven companies, mainly:
- Market Capitalization: $2.4T
- Read: Microsoft Earnings Report To Focus On Cloud Computing, Generative AI
- Market Capitalization: $1.7T
- Read: Google takes aim at Duolingo with new English tutoring tool
- Market Capitalization: $1.3T
- Read: SEE IT: Amazon’s new Prime drone in action
- Market Capitalization: $1.0T
- Read: The U.S. Just Slapped New Trade Restrictions on AI Chips to China: Here’s Why Nvidia Investors Shouldn’t Panic
Investing In Quantum Computer StocksQC is still in the early stages of development, but plenty of research dollars are being funneled into this advanced tech. QC could eventually augment classic computers and dramatically accelerate technological developments in industries like healthcare, finance, and materials manufacturing. Although QC pure-play stocks are scarce, investing in technology companies with QC exposure could yield impressive returns in the decades ahead. That being said, however, it is still too early to determine the best QC stocks to invest in because the technology is rapidly advancing with several competing approaches. What You Need To Know About Quantum ComputingPlease read The WIRED Guide to Quantum Computing – Everything you ever wanted to know about qubits, superpositioning, etc. by Tom Simonite and Sophie Chen. It is the absolute best article you will ever read about QC – bar none! For a snippet of what they have to say check out the following excerpt:
- A device that uses quantum mechanical effects to represent 0s and 1s of digital data, similar to the bits in a conventional computer.
- Qubits come in different designs. Some take the form of on circuits made of superconducting material. Others are devices that control individual atoms, individual charged atoms known as ions, or single photons.
- Qubits don’t hold on to information perfectly because of interactions with the environment. In state-of-the-art hardware, this results in a computing error around once in every 1,000 operations.
- The dream algorithms of the field require an error rate of about one in a billion operations. Researchers have developed codes to correct these errors, but they require a lot of computational power to implement. In the meantime, quantum computing experts are investigating how machines without error checking might still be useful.
- It’s the trick that makes quantum computers tick, and makes qubits more powerful than ordinary bits. A superposition is a mathematical combination of both 0 and 1. Quantum algorithms can use a group of qubits in a superposition to shortcut through calculations.
- A quantum effect so unintuitive that Einstein dubbed it “spooky action at a distance.” When two qubits in a superposition are entangled, certain operations on one have instant effects on the other, a process that helps quantum algorithms be more powerful than conventional ones.
- The term refers to a quantum computer capable of performing a task—useful or not—faster than a state-of-the-art supercomputer. Also sometimes known as “quantum supremacy” or “quantum computational advantage,” the term is a moving target as researchers continue to improve classical algorithms…
The reason we don’t have useful quantum computers today is that qubits are extremely finicky. The quantum effects they must control are very delicate, and stray heat or noise can flip 0s and 1s or wipe out a crucial superposition. Qubits have to be carefully shielded, and operated at very cold temperatures—sometimes only fractions of a degree above absolute zero. (The WIRED Guide to Quantum Computing – Everything you ever wanted to know about qubits, superpositioning, etc. )More By This Author:Israeli-Hamas War: U.S. Exchange-Listed Israeli Stocks Continue To Decline
Largest Cannabis Stocks Continue To Decline This Week
Get Positioned! AMD Is About To Launch The Most Powerful AI Chip In History
