It’s no secret: quantum computing has been poised to be “the next big thing” for years. But recent developments in the quantum ecosystem, including major investments by companies such as IBM, Google, Microsoft and others, are the best indicators that now is the time to begin preparing for potentially viable quantum applications—and to identify where and when to most effectively use them.
“Classical” computers operate in a binary fashion, processing information as either zeros or ones. But quantum computers? They leverage quantum mechanics so data can exist simultaneously in multiple states—zeros, ones or both. The result is a supercomputer that can explore countless possibilities at once and produce results in minutes or seconds instead of hours, weeks or years.
Projected use-case areas span multiple industries and market sectors. In finance, for example, quantum computing could be utilized for portfolio optimization, risk management and algorithmic trading. In healthcare, it could enable advancements in drug discovery, personalized medicine and disease modeling. In logistics, it could optimize supply chain management, route optimization and scheduling.
At the same time, there’s a gap between what quantum can do at the current moment versus anticipated capabilities in the next three to five years.
“In each real-world application, the first step in solving the problem is translating it to a computational problem. After that’s done, you need to choose—or develop—an algorithm for solving that problem. And because these applications are things people do every day, there are clearly a number of ‘classical’ computing algorithms that are known—and still being explored—for solving the associated problems,” says John McNally, Wolfram Academic Innovation Solutions Developer. “The catch is that the scale of certain real applications can become too great for even the best classical computing resources to successfully carry out any known classical algorithm to reach a full solution.”
At this point, quantum algorithms and the hardware needed to run them become interesting. And there are important questions to address, in particular how to scale up quantum systems following practical fault-tolerant approaches.
And this is where the Wolfram Quantum Framework comes in.
Wolfram Quantum Framework
On its own, the Wolfram Quantum Framework is not a quantum computer. Instead, it is a set of tools to model quantum circuits and design algorithms. Then, after you’ve analyzed a quantum system using classical means, the Framework also gives you tools to automatically translate your models into representations that can be run on quantum hardware through service connections with Amazon Braket and other providers:
The Wolfram Quantum Framework’s key advantage, however, is its seamless integration with Wolfram Language. This includes optimized numerics and symbolics that offer a streamlined approach to quantum computation.
“Aside from working numerically, you can specify noise channels, gates or even elements of a Hamiltonian as symbolic parameters,” McNally says. “This allows you to get exact formulas out of your analysis rather than numerical simulations only. Plus, it seamlessly integrates with other quantum platforms, even across different programming languages.”
Wolfram’s symbolic computation offers distinct benefits over numerically based programming languages by enabling the calculation of “exact” solutions to complex problems. For academia, this means a deeper understanding of quantum principles and the ability to explore new frontiers in research. But for businesses, prospective bottom-line returns include potential cost savings through more efficient algorithms, improved accuracy in simulations and predictions, and faster innovation cycles.
The Wolfram Quantum Framework continues to evolve with new features to expand the Framework’s support for different computational models, such as tensor networks and stabilizer formalism, as well as to accommodate a wider range of quantum tasks. Additionally, plans are underway to introduce enhancements to improve usability, scalability and compatibility with emerging quantum hardware technologies.
The Future of Quantum
Navigating quantum is more than thinking about quantum algorithms alone: it also means understanding the world of classical algorithms to identify when practical problems make contact with the rapidly developing world of quantum hardware. This uniquely positions Wolfram Research to address challenging quantum problems and develop quantum utilities, particularly considering its longstanding development of classical algorithms and well-developed footprint in academia.
In a larger sense, the development of quantum capabilities is going to result in a great divide: the haves and the have-nots, or more importantly, the dids and the did-nots. While quantum hardware is not yet where it’s going to be for use on an industrial scale, the time is now to begin planning for its use when it is. And while this may seem a bit nebulous, vision is the art of seeing what is invisible to others, and those who understand how quantum will benefit them stand to reap the most significant rewards.
Contact the Wolfram Consulting Group to learn how the Wolfram Quantum Framework can provide insights and tools for innovation.
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In an economic environment where costs are rising, businesses are searching for new ways to improve margins, ideally by increasing productivity while lowering costs at the same time. Generative AI is offering a quickly growing toolbox for enhancing efficiency and reducing operational expenses with relatively low targeted investments. For example, AI tools can be used to process large amounts of documents, images or video content as well as to automatically generate new content at high quality.
It is not difficult for organizations to develop a multitude of ideas of how to put generative AI to work—indeed, the potential seems almost unlimited. But developing a comprehensive AI strategy for a business is a big challenge at a time when foundational technologies appear to evolve on a weekly basis.
The generative AI ecosystem is moving at a breathtaking speed, with new players arriving daily and established players at risk of disappearing. Big, commercial large language models (LLMs) are leading the scoreboards, but smaller and open-source models, including those with commercially viable licenses, are catching up quickly. The cost structure of operating LLMs is currently dominated by a scarcity of specialized hardware for AI clusters, with delivery times of a year or more for large customers. Selecting the right set of tools from an avalanche of unproven and quickly changing open-source projects is another considerable challenge.
It seems hard to pick the right combination of tools, AI models and technology suppliers for long-term tech investments, especially for organizations (including large, established consulting firms and IT service providers) that lack the expertise to implement generative AI. So what is a safe approach to creating an AI strategy if you do not want to miss out on this exciting technology, while hedging your bets and minimize your risk?
Wolfram Consulting Group can help companies to navigate this quickly transforming landscape by beginning with carefully selected and sharply focused use cases, avoiding the pitfalls of premature and costly investments. By rapidly developing prototypes for the most promising application areas, clients can gain experience and build the expertise and confidence to develop a longer-term generative AI strategy in preparation for more profound and transformative changes.
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In today’s fast-paced digital landscape, organizations need cutting-edge technology to stay ahead of the competition. One such technology that has revolutionized the field of knowledge-based computing is Wolfram|Alpha, a platform that fundamentally transforms how knowledge is presented, acquired, developed and managed. Wolfram Consulting Group has helped large corporate clients deploy custom versions of Wolfram|Alpha to unlock a world of possibilities for their customers.
By integrating Wolfram|Alpha technology into your website or product, you can enrich your online offerings with computational knowledge. Whether you’re enhancing existing web properties or building new ones, Wolfram|Alpha brings information to life like never before. Its supercomputer-powered software-as-a-service (SaaS) infrastructure provides a cost and time-to-market advantage, ensuring you can leverage computable knowledge efficiently.
One of the key advantages of Wolfram|Alpha is its versatility. You can deploy it on your platform or environment, offering your users native access to its capabilities. This opens up opportunities to connect Wolfram|Alpha with novel user interfaces and tailor it to specific user communities or usage patterns. Its natural language capabilities enable the delivery of computational intelligence directly to AI language models, enhancing their capabilities and efficiency.
For organizations seeking to curate and make their corporate data computable, Wolfram|Alpha offers uniquely powerful solutions. By leveraging Wolfram|Alpha’s technology and processes, you can transform your data into a valuable asset. Fully integrating your data with Wolfram|Alpha’s repository of computable data provides unparalleled access and analysis capabilities. Additionally, deploying a private intranet copy of Wolfram|Alpha within your data center ensures secure access behind your corporate firewall.
The benefits extend beyond data analysis and management. Wolfram|Alpha enables the creation of high-impact visualizations, allowing you to present your corporate data, models and results with clarity and accuracy. By providing an intuitive language interface, Wolfram|Alpha facilitates free-form English queries that span multiple domains, seamlessly bridging the gap between your corporate databases and Wolfram|Alpha’s vast algorithmic capabilities.
By integrating relevant, timely, richly visualized computable knowledge from Wolfram|Alpha and your own data, you can enhance your customers’ experience across various touchpoints. Whether it’s websites, applications, reports or products, the integration of Wolfram|Alpha technology adds value and sophistication.
Wolfram|Alpha technology opens up a world of possibilities for organizations seeking to revolutionize their approach to knowledge-based computing. By leveraging its proprietary processes and deploying it across your organization, you can delight your customers, inform your decision making, energize your data and enhance the capabilities of your AI systems. With Wolfram|Alpha, the future of knowledge-based computing is within your reach.
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