Building the business of biodesign.

From SynBioBeta 2018, San Francisco, October 2nd, 2018 Breakthrough innovation specialists Cambridge Consultants and CATALOG Technologies, a company which develops DNA data storage, today revealed a partnership and plans for a machine that will encode data in DNA. The machine will scale the encoding process, making it affordable and fast enough for commercial pilots slated for next year. With this technology, the information content of entire data centers can fit into the palm of your hand.  

Having proven their proprietary method for encoding data in DNA, CATALOG has engaged Cambridge Consultants to support the scaling up of their platform, designing and building a machine that will encode the data at a speed of one terabit (Tb) in 24 hours. That’s equivalent to 64 hours of 1080p HD video. Such leaps in speed will help make it economically attractive to use DNA as the medium for long-term archival of data.

As soon as 2025, conventional mediums of storing data – hard drives in data centers, often accessed as cloud services – will no longer be capable of meeting our data storage needs. DNA data storage, which uses synthetic DNA, is space effective, highly sustainable and can fit enormous quantities of data into a tiny footprint.

Today’s data centers take up acres of land and consume hundreds of megawatts of energy in maintaining their sensitive conditions, particularly for cooling. By encoding data in DNA, data is stored using a fraction of the energy consumed by data centers. DNA storage can be safely stored at room temperature, is space efficient and has a lifespan of 1,000 years – compared to just a few years for hard drives – if kept in a cool and dry place. With no power requirements, there is no need for active cooling.

Scientists have been researching DNA data storage for decades, but it was not expected to be commercially viable in the near term. It has been prohibitively slow and expensive, until now. CATALOG’s proprietary method takes an entirely different approach than traditional thinking on DNA data storage. As an analogy, assume the information to be stored is a book, which can be stored by copying it. The traditional approach would go about this by transcribing the book from start to finish, letter for letter. This is a time consuming and expensive process. Further, if you want to store a different book, you have to start again from scratch, meaning the cost would be doubled. The CATALOG approach can be thought of as building a printing press with typefaces. The company rearranges the typefaces (pre-made DNA molecules) to match the contents of the book. Because of this, the process is faster and cheaper. The incremental cost for printing different additional books is also significantly lower.

This new machine can be thought of as a printing press that utilizes the typefaces to create the different combinations. Data will be encoded using the fragments of synthetic DNA and then stored in dry powder form, in a test tube.

Building a machine that can encode information into DNA at such speeds is a complex, multidisciplinary challenge. To achieve 1Tb in 24 hours the machine must perform tens of billions of operations, at microscopic scale and highly-parallel, to very high accuracy. Cambridge Consultants has constructed a project team with a unique combination of expertise in microfluidics, process automation, software development, machine design and synthetic biology.

“Making DNA data storage commercially viable requires significant advances in scalability – it’s simply too slow and expensive to be used for business and government use cases as it stands today,” said Hyunjun Park, co-founder and CEO, CATALOG Technologies. “The machine we are developing with Cambridge Consultants will bring DNA data storage out of the research lab and into the real world, for the first time in history.”

“We’re excited to be collaborating with CATALOG on this fascinating project with world-changing potential”, said Richard Hammond, Head of Synthetic Biology, Cambridge Consultants. “This project requires us to build a highly diverse team and draws on our long experience of delivering technically challenging projects. It also showcases our ability to unite engineering and biology to make radical new ideas a reality.”

Today’s announcement coincides with SynBioBeta 2018: The Global Synthetic Biology Summit, taking place in San Francisco, CA. Both Cambridge Consultants and CATALOG are in attendance and available for further discussion. 

Notes to editors

Cambridge Consultants (剑桥顾问公司)开发突破性产品,产生和授权知识产权,并为全球的客户提供商业资讯,解决与技术相关的关键问题。60多年来,公司一直致力于帮助客户转化商业机会,包括推出市场领先的产品,进入新市场,引入新技术扩大现有市场。公司拥有超过900名员工,包括工程师、科学家、数学家和设计师,遍布于英国剑桥、美国波士顿、东京和新加坡办事处,为医疗和生命科学、工业和能源、消费和零售以及通讯和基础设施等多个行业提供解决方案。欲了解更多信息,请访问:

Cambridge Consultants是 Capgemini Invent (凯捷集团的创新、咨询和转型品牌)的子公司。Capgemini Invent帮助管理者设想和构建他们组织的未来。公司在全球设有30多个办事处和25个创意工作室,是一支拥有7000多名员工的强大团队,将战略、技术、数据科学和创意设计与深厚的行业专业知识和洞察力相结合,开发新的数字解决方案和未来的商业模式。

凯捷集团是通过技术来为客户改造和管理业务的全球领导者,而Capgemini Invent是凯捷集团不可或缺的一部分。集团的宗旨是通过技术释放人类的潜能,实现包容性和可持续的未来。它是一个及负社会责任的多元化组织,在近50个国家拥有27万名团队成员。凭借其50年的悠久历史和深厚的行业专业知识,凯捷集团受到客户的信赖,在快速发展和充满创新的云、数据、人工智能、连接、软件、数字工程和平台技术的推动下,能够满足客户从战略、设计到运营的所有业务需求。集团2020年的全球营收为160亿欧元。

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About CATALOG Technologies Inc.

Founded by two MIT scientists, CATALOG is the first company to have developed a solution to make DNA data storage commercially viable. The world currently faces a looming data storage problem, which DNA may hold the answer to. CATALOG’s DNA data storage solution is more reliable, sustainable, and transferable than conventional data storage methods, and could fit the world’s data into a coat closet. The company is based in Boston, MA. For more information, please visit 

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