An advanced quantum computing software package is now open source

Maybe you already have a hand in the next technological revolution.

Cambridge Quantum has made its latest kit for developing entirely open source quantum software, with immediate availability for use by all and zero usage restrictions, according to a press release shared with IE by email.

Access and instructions are available on GitHub (linked below), but one thing is for sure: quantum DIY calculations are increasing.

The new quantum computing chip emphasizes the minimum number of ports and execution time

In particular, the latest, v.0.15 version of TKET (pronounced “ticket”) offers a high-performance quantum software development kit and came out open source after months of waiting. “We first announced that TKET will be available on an open basis earlier this year, with a commitment to make it fully open by the end of 2021,” Cambridge Quantum (CQ) CEO Ilyas Hahn said in a statement. the press. “During this period, a global community of software developers embraced and adopted our class-leading product that delivers the best possible performance while using existing platforms such as Qiskit and Cirq, as well as the largest collection of quantum processors available.”

Central to this was the need to minimize the number of gates and execution time, “in this era of noisy intermediate scale quantum level (NISQ),” said CQ software chief Ross Duncan. “TKET combines high-level hardware-agnostic optimization for quantum circuits with specific target compilation paths for the selected quantum device.” Duncan also explained how this allows quantum computing users to switch quantum platforms without sacrificing optimal performance. “Users just need to focus on developing their quantum applications, not rewriting the code around the idiosyncrasies of each particular hardware.”

Quantum computing can transform artificial intelligence

By moving its kit to open source status, CQ allows users to experience greater transparency in the code. This in turn facilitates problem reporting and the integration of more robust updates. “The fast-growing community of quantum software will now be able to make its own contribution or be inspired and develop its own extensions to the code base under the Apache 2.0 license,” the statement said. This comes after the early open source extensions that started with version 0.8 of CQ. “Extensions are Python modules that allow TKET to work with a variety of quantum devices and simulators and provide integration with other quantum software tools.” While users who are interested in open source quantum tools CQ have access additional documentation and tutorials via GitHub, this is a significant step in outsourcing the necessary work to transform modern computers into a next-generation force that can literally change the structure of modern society.

In the last few years, IBM has created 28 quantum computers, eight of which in 2020 alone, highlighting the rapid rise in the experimental field. IBM Q Network is available as in its own cloud software services, in addition to the open source software development kit, Qiskit. Together, they represent “a community of Fortune 500 companies, academic institutions, start-ups and national research laboratories working with IBM to improve quantum computing,” according to the company’s website. In September 2020, Xanadu created the world’s first photon quantum computer based entirely on the cloud. Although none of the above developments is fully realized the potential of quantum computing, it is difficult to overestimate the possibilities for this to happen. Technology can revolutionize the medical industry, transform communications, improve cybersecurity to unimaginable levels, and change the artificial intelligence landscape forever.

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