Sep
25
2019
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QC Ware Forge will give developers access to quantum hardware and simulators across vendors

Quantum computing is almost ready for prime time, and, according to most experts, now is the time to start learning how to best develop for this new and less than intuitive technology. With multiple vendors like D-Wave, Google, IBM, Microsoft and Rigetti offering commercial and open-source hardware solutions, simulators and other tools, there’s already a lot of fragmentation in this business. QC Ware, which is launching its Forge cloud platform into beta today, wants to become the go-to middleman for accessing the quantum computing hardware and simulators of these vendors.

Forge, which like the rest of QC Ware’s efforts is aimed at enterprise users, will give developers the ability to run their algorithms on a variety of hardware platforms and simulators. The company argues that developers won’t need to have any previous expertise in quantum computing, though having a bit of background surely isn’t going to hurt. From Forge’s user interface, developers will be able to run algorithms for binary optimization, chemistry simulation and machine learning.

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“Practical quantum advantage will occur. Most experts agree that it’s a matter of ‘when’ not ‘if.’ The way to pull that horizon closer is by having the user community fully engaged in quantum computing application discovery. The objective of Forge is to allow those users to access the full range of quantum computing resources through a single platform,” said Matt Johnson, CEO, QC Ware. “To assist our customers in that exploration, we are spending all of our cycles working on ways to squeeze as much power as possible out of near-term quantum computers, and to bake those methods into Forge.”

Currently, QC Ware Forge offers access to hardware from D-Wave, as well as open-source simulators running on Google’s and IBM’s clouds, with plans to support a wider variety of platforms in the near future.

Initially, QC Ware also told me that it offered direct access to IBM’s hardware, but that’s not yet the case. “We currently have the integration complete and actively utilized by QC Ware developers and quantum experts,”  QC Ware’s head of business development Yianni Gamvros told me. “However, we are still working with IBM to put an agreement in place in order for our end-users to directly access IBM hardware. We expect that to be available in our next major release. For users, this makes it easier for them to deal with the churn. We expect different hardware vendors will lead at different times and that will keep changing every six months. And for our quantum computing hardware vendors, they have a channel partner they can sell through.”

Users who sign up for the beta will receive 30 days of access to the platform and one minute of actual Quantum Computing Time to evaluate the platform.

Sep
18
2019
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Aliro comes out of stealth with $2.7M to ‘democratize’ quantum computing with developer tools

It’s still early days for quantum computing, but we’re nonetheless seeing an interesting group of startups emerging that are helping the world take advantage of the new technology now. Aliro Technologies, a Harvard startup that has built a platform for developers to code more easily for quantum environments — “write once, run anywhere” is one of the startup’s mottos — is today coming out of stealth and announcing its first funding of $2.7 million to get it off the ground.

The seed round is being led Flybridge Capital Partners, with participation from Crosslink Ventures and Samsung NEXT’s Q Fund, a fund the corporate investor launched last year dedicated specifically to emerging areas like quantum computing and AI.

Aliro is wading into the market at a key moment in the development of quantum computing.

While vendors continue to build new quantum hardware to be able to tackle the kinds of complex calculations that cannot be handled by current binary-based machines, for example around medicine discovery, or multi-variabled forecasting — just today IBM announced plans for a 53-qubit device — even so, it’s widely acknowledged that the computers that have been built so far face a number of critical problems that will hamper wide adoption.

The interesting development of recent times is the emergence of startups that are tackling these specific critical problems, dovetailing that progress with that of building the hardware itself. Take the fact that quantum machines so far have been too prone to error when used for extended amounts of time: last week, I wrote about a startup called Q-CTRL that has built firmware that sits on top of the machines to identify when errors are creeping in and provide fixes to stave off crashes.

The specific area that Aliro is addressing is the fact that quantum hardware is still very fragmented: each machine has its own proprietary language and operating techniques and sometimes even purpose for which it’s been optimised. It’s a landscape that is challenging for specialists to engage in, let alone the wider world of developers.

“We’re at the early stage of the hardware, where quantum computers have no standardisation, even those based on the same technology have different qubits (the basic building block of quantum activity) and connectivity. It’s like digital computing in 1940s,” said CEO and chairman Jim Ricotta. (The company is co-founded by Harvard computational materials science professor Prineha Narang along with Michael Cubeddu and Will Finigan, who are actually still undergraduate students at the university.)

“Because it’s a different style of computing, software developers are not used to quantum circuits,” said Ricotta, and engaging with them is “not the same as using procedural languages. There is a steep on-ramp from high-performance classical computing to quantum computing.”

While Aliro is coming out of stealth, it appears that the company is not being specific with details about how its platform actually works. But the basic idea is that Aliro’s platform will essentially be an engine that will let developers work in the languages that they know, and identify problems that they would like to solve; it will then assess the code and provide a channel for how to optimise that code and put it into quantum-ready language, and suggest the best machine to process the task.

The development points to an interesting way that we may well see quantum computing develop, at least in its early stages. Today, we have a handful of companies building and working on quantum computers, but there is still a question mark over whether these kinds of machines will ever be widely deployed, or if — like cloud computing — they will exist among a smaller amount of providers that will provide access to them on-demand, SaaS-style. Such a model would seem to fit with how much computing is sold today in the form of instances, and would open the door to large cloud names like Amazon, Google and Microsoft playing a big role in how this would be disseminated.

Such questions are still theoretical, of course, given some of the underlying problems that have yet to be fixed, but the march of progress seems inevitable, with forecasts predicting that quantum computing is likely to be a $2.2 billion industry by 2025, and if this is a route that is taken, the middlemen like Aliro could play an important role.

“I have been working with the Aliro team for the past year and could not be more excited about the opportunity to help them build a foundational company in Quantum Computing software, “ said David Aronoff, general partner at Flybridge, in a statement. “Their innovative approach and unique combination of leading Quantum researchers and a world-class proven executive team, make Aliro a formidable player in this exciting new sector.

“At Samsung NEXT we are focused on what the world will look like in the future, helping to make that a reality,” said Ajay Singh, Samsung NEXT’s Q Fund, in a statement. “We were drawn to Prineha and her team by their impressive backgrounds and extent of research into quantum computing. We believe that Aliro’s unique software products will revolutionize the entire category, by speeding up the inflection point where quantum becomes as accessible as classical computing. This could have implications on anything from drug discovery, materials development or chemistry. Aliro’s ability to map quantum circuits to heterogeneous hardware in an efficient way will be truly transformative and we’re thrilled to be on this journey with them.”

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