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羅氏制藥利用量子計(jì)算開(kāi)發(fā)新藥

Jeremy Kahn

2021-02-13

羅氏將使用軟件平臺(tái)模擬量子層級(jí)的化學(xué)相互作用，研發(fā)老年癡呆的治療方法，并將逐步推廣該技術(shù)到其他疾病潛在藥物的研發(fā)工作之中。

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瑞士制藥公司羅氏制藥攜手英國(guó)公司利用量子計(jì)算技術(shù)尋找治療老年癡呆等疾病的新方法。

劍橋量子計(jì)算公司（Cambridge Quantum Computing）位于英國(guó)劍橋，是一家協(xié)助各類(lèi)企業(yè)使用量子計(jì)算機(jī)專(zhuān)用算法的企業(yè)，該公司表示，羅氏制藥即將使用其搭建的軟件平臺(tái)模擬量子層級(jí)的化學(xué)相互作用，研發(fā)老年癡呆的治療方法，并將逐步推廣該技術(shù)到其他疾病潛在藥物的研發(fā)工作之中。

劍橋量子計(jì)算公司的首席執(zhí)行官伊利亞斯·汗表示：“多年以來(lái)，人類(lèi)對(duì)借助量子計(jì)算技術(shù)開(kāi)發(fā)新藥、戰(zhàn)勝最致命、最具傷害性的疾病一直寄予厚望。令我們高興的是，由于我們研發(fā)團(tuán)隊(duì)謹(jǐn)慎且富有開(kāi)創(chuàng)性的工作，量子計(jì)算技術(shù)的部分潛力即將得到兌現(xiàn)?！?/p>

劍橋量子計(jì)算公司本身并不生產(chǎn)量子計(jì)算機(jī)，但他們?cè)O(shè)計(jì)的算法可以在量子計(jì)算機(jī)上運(yùn)行，某些情況下，也可以使用他們的算法利用標(biāo)準(zhǔn)計(jì)算機(jī)對(duì)量子效應(yīng)進(jìn)行模擬。

量子計(jì)算機(jī)是一種新興技術(shù)，將量子物理的相關(guān)特性應(yīng)用到了計(jì)算領(lǐng)域。在傳統(tǒng)計(jì)算機(jī)中，信息以“比特”這種二元形式表示，其值為“0”或“1”。在量子計(jì)算機(jī)中，信息由“量子位”表示，可以同時(shí)表示“0”和“1”。此外，在普通計(jì)算機(jī)中，每個(gè)“比特”都獨(dú)立于其他“比特”，而在量子計(jì)算機(jī)中，“量子比特”相互影響，共同求解。

理論上說(shuō)，憑借上述特性，量子計(jì)算機(jī)能夠完成現(xiàn)有傳統(tǒng)超級(jí)計(jì)算機(jī)在合理時(shí)間內(nèi)無(wú)法完成的各種計(jì)算任務(wù)。2019年，谷歌聲稱(chēng)其已實(shí)現(xiàn)所謂“量子霸權(quán)”，即該公司使用量子計(jì)算機(jī)解決了傳統(tǒng)超級(jí)計(jì)算機(jī)需要大約1萬(wàn)年才能解決的問(wèn)題。

但現(xiàn)有量子計(jì)算機(jī)只能在很短的時(shí)間內(nèi)保持量子態(tài)，當(dāng)其脫離量子態(tài)時(shí)，計(jì)算就會(huì)出現(xiàn)錯(cuò)誤。雖然如此，但劍橋量子計(jì)算公司等企業(yè)設(shè)計(jì)的算法依然能夠發(fā)揮作用，比如幫助金融公司評(píng)估投資組合的風(fēng)險(xiǎn)，或者幫助物流公司找到運(yùn)送貨車(chē)的最佳路線。

和許多藥企一樣，羅氏制藥也有一個(gè)小團(tuán)隊(duì)在負(fù)責(zé)監(jiān)控量子計(jì)算的最新進(jìn)展，同時(shí)也開(kāi)展了簡(jiǎn)單的概念驗(yàn)證項(xiàng)目。該公司曾與牛津大學(xué)的一組研究生合作進(jìn)行過(guò)分子模擬實(shí)驗(yàn)，與其即將與劍橋量子計(jì)算公司合作進(jìn)行的模擬實(shí)驗(yàn)頗為相似。該公司還與已經(jīng)開(kāi)發(fā)出具有工作能力的量子計(jì)算機(jī)的科技企業(yè)建立起了合作關(guān)系，借助后者設(shè)備依托云計(jì)算網(wǎng)絡(luò)進(jìn)行量子計(jì)算。（財(cái)富中文網(wǎng)）

譯者：梁宇

審校：夏林

瑞士制藥公司羅氏制藥攜手英國(guó)公司利用量子計(jì)算技術(shù)尋找治療老年癡呆等疾病的新方法。

譯者：梁宇

審校：夏林

Swiss pharmaceutical firm Roche is partnering with a U.K. company to use quantum computing techniques to find new treatments for diseases, including Alzheimer's.

Cambridge Quantum Computing, a company in Cambridge, England, that helps businesses use specialized algorithms designed to run on a quantum computer, said Roche will begin using a software platform it has built that helps simulate quantum-level chemical interactions to research possible Alzheimer treatments and, eventually, potential drugs for other diseases too.

"For many years quantum computing has held out great promise for discovering new therapeutics that aid humanity in fighting some of the most devastating and damaging diseases," Ilyas Khan, Cambridge Quantum Computing's chief executive, said. "We are pleased that due to the careful and pioneering efforts of our research teams, some of this promise is starting to come to fruition."

The algorithms Cambridge Quantum Computing designs can be run on a quantum computer or, in some cases, used to simulate quantum effects using a standard computer. The company does not itself build quantum computers.

Quantum computers are an emerging technology in which machines use the properties of quantum physics to perform calculations. In a traditional computer, information is represented in a binary format called a bit, with a value of either 0 or 1. In a quantum computer, information is represented by something called a qubit that can represent both 0 and 1 at the same time. Also, in a normal computer, each bit is independent of the others, whereas in a quantum computer the qubits influence one another, working together to arrive at a solution.

In theory, these properties make quantum computers capable of performing calculations that no existing traditional supercomputer could solve in a reasonable time period. In 2019, Google claimed to have achieved a milestone called "quantum supremacy" in which it used a quantum computer to perform a calculation that it would have taken a conventional supercomputer an estimated 10,000 years to solve.

But today's quantum computers can remain in a quantum state only for very short periods of time—and as they fall out of a quantum state, errors creep into their calculations. Companies like Cambridge Quantum Computing specialize in designing algorithms that can still do useful things—such as helping financial firms assess the risk of a portfolio or a logistics company find the best way to route its delivery vans—even with these error-prone calculations.

Like many pharmaceutical firms, Roche has had a small team monitoring recent advances in quantum computing and working on simple proof-of-concept projects. It has previously worked with a group of graduate students from the University of Oxford on molecular simulations, similar to the ones it will now be doing in partnership with Cambridge Quantum Computing. It has also explored partnership with the technology companies that have built working quantum computers and allow businesses to perform calculations on them through cloud-computing networks.

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