The B2B platform for the best purchasing descision. Identify and compare relevant B2B manufacturers, suppliers and retailers
Filter
Locations
Result types
Type of company
Select company type
Industries
Select industry
Company status
Select company status preset
Number of employees
Min.
Max.
Founding year
Lock keywords
Exclude keywords
Optional keywords
Paris, France
1-10 Employees
Biomemory created a digital media capable of storing data with 1-million higher density than any SSD or Magnetic Tape. The DNA DRIVE is assembled from bio-sourced components and stores data at ultra-high density. The DNA DRIVE is stable at ambient temperature with no energetic input and no CO2 emission. DNA is an ultradurable molecule stable for thousands of years. The most ancient full genome was obtained from a 1-million-year-old mammoth by DNA sequencing.
+
Featured
Biomemory - DNA Digital Data Storage
... Biomemory - DNA Digital Data Storage ...
+
Featured
Smart Nano-Materials for DNA Storage & Security — Helixworks Technologies, Ltd.
... We engineer next-gen DNA data storage & security wetware that's affordable, sustainable & scalable, using an enzyme-driven approach. ...
Carlsbad, United States
11-50 Employees
2016
Jay joined the Iridia Board of Directors in August 2017 and serves as Director and Chairman of the Board. Linton co-founded Iridia in 2016 and led the company as CEO and President through Q4 2019. Iridia Appoints Sandeep Vij to Board of Directors. Iridia Closes $6M Funding Round for DNA Memory Chips. Prahalad was VP of Business Development for Sequenom, Inc., a pioneer in blood-based, pre-natal diagnostics. Cauley is the inventor on over 15 patents (provisional and non-provisional included). Robert Exeter, CPA (inactive) brings over 35 years of experience in both public and private accounting. Exeter holds a bachelor’s degree in accounting from San Diego State University and is a Certified Public Accountant in California currently in inactive status.
+
Featured
Data Storage is in our DNA!TM
... As the industry focus on DNA data storage expands, Iridia will be well positioned with a solution designed specifically for the modern data center. ...
Paris, France
1-10 Employees
2019
We are a multi-disciplinary team of creatives, technologists and scientists developing cutting-edge research since 2018. GYOC is a team of technologists, scientists and creatives developing ethical and environmentally focused research since 2018. Get updates, news on upcoming products and be first on the list for GYOC.
+
Featured
We are a green biotech companydeveloping clean data solutions through DNA data storage in plants
... Grow Your Own Cloud is a green biotech company developing regenerative data solutions through DNA data storage in Plants ? ...
Marlow, United Kingdom
11-50 Employees
2012
Company No. 08311209 | VAT No. 155876273 | Copyright © 2022, The Like Minded Limited®. Registered UK Office Address: 1st Floor, Portland Place, Portland Gardens, Marlow, Bucks, SL7 2RL.
+
Featured
Cambridge Consultants: DNA Data Storage | The Like Minded
... Play Video Cambridge Consultants & Catalog Technologies Explainer Animation for DNA Data Storage Challenge By 2025 the World will run out of ...
La Rochelle, France
1-10 Employees
2017
At Labtoo, we give a lot of respect to the women and the men that thrive every day to change the world. We also diversified our services with biological specimen procurement. With solutions like we provide at Labtoo, we can save precious days, weeks, or even months before the new drug hit the market. The Labtoo method allows for finding solutions quickly at all stages of the R&D process and in any type of therapeutic area. The Labtoo method was developed around the outsourcing support for preclinical R&D: in vitro models, in vivo models, genomics, and proteomics services. This is the purpose of our work at Labtoo. Founded in 2017 by a team of scientists, Labtoo started as a digital marketplace. As scientists, we all know how dependent we are on the community, and how we need each other to move forward.
+
Featured
Biological samples DNA extraction & storage
... Samples DNA extraction & storage - Storage - ...
Canada
11-50 Employees
Genetic Health is a pioneer in DNA recovery, analysis and storage. As a company, Genetic Health continues to build and strengthen our expertise in the biotechnology industry with a strong commitment to advancing scientific insight into new areas of DNA applications such as prenatal, lifestyle and preventative medicine. Genetic Health also offers training and consulting to police, medical professionals, industry and government agencies as well as sample procurement and design services. Genetic Health can provide a full range of Genetic Testing options either in house or through the Global Genetic Health Network. Researchers can tap into Genetic Health’s large network of providers including post mortem, museum and preserved …. Genetic Health helps companies and individuals develop innovative solutions with DNA.
+
Featured
About Us – Genetic Health
... Genetic Health has advanced the science of DNA storage and preservation with many new and inventive methods allowing room temperature storage. This has allowed us to become the premier company for the funeral home industry as post mortem DNA is more complicated and requires specialized ...
Goleta, United States
1-10 Employees
2009
GenPod - Forever change the way you capture, store and use your DNA!
+
Featured
GenPod Animal
... Description Specs Shipping Info 1 GenPod Animal Kit 1 GenPod Animal 8 DNA storage wells 16GB, 512GB data storage capacity 1 GenSaver™ Card (Sequencing DNA Collection) Instruction Booklet GenPod Specs Height .3875 in. Length 3 in. Width 0.625 in. Storage Capacity 16GB, 512GB ...
Heidelberg, Germany
501-1000 Employees
1974
EMBL Council comprises national representatives of our member states and is EMBL’s governing body. EMBL pursues five missions in research, services, training, technology transfer and policy development. EMBL fosters International Relations across Europe and worldwide, and we have partnerships with comparable institutions. EMBL harnesses its entrepreneurial spirit through technology-transfer programmes, industry relations and technology spin-offs. By supporting EMBL with your philanthropic contribution, you are enabling progress in its purest form. EMBL strongly encourages open access publication and is committed to support fair and responsible research assessment practices. We are committed to transitioning to a sustainable organisation, and to creating a more inclusive research and work culture, including the provision of independent and impartial support for staff. At EMBL Barcelona we study how tissues and organs develop and function in health and disease.
+
Featured
DNA als Datenspeicher / DNA data storage | EMBL.org
... DNA als Datenspeicher / DNA data storage | EMBL. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for DNA Storage
Country with most fitting companies | United States |
Amount of fitting manufacturers | 23 |
Amount of suitable service providers | 14 |
Average amount of employees | 1-10 |
Oldest suiting company | 1974 |
Youngest suiting company | 2019 |
20%
40%
60%
80%
DNA storage refers to the advanced technique of encoding and preserving digital data in the sequence of DNA, the molecule that stores genetic information in living organisms. This innovative method capitalizes on DNA's inherent stability and high-density storage capacity, offering a promising solution to the burgeoning demand for data storage. Unlike traditional storage mediums, which are susceptible to degradation over time and require substantial physical space, DNA can potentially store vast amounts of information compactly and for millennia under proper conditions. The role of DNA storage in the field of data preservation is transformative, providing a sustainable and energy-efficient alternative to conventional data centers. Its impact extends beyond mere data conservation; it holds the potential to revolutionize the way we archive historical records, manage big data, and even tackle challenges in computing. By leveraging the natural encoding capabilities of DNA, researchers and technologists are exploring the frontiers of bioinformatics and synthetic biology, paving the way for advancements in medical research, environmental sustainability, and information technology. The development and refinement of DNA storage technologies are poised to redefine the parameters of data longevity and accessibility, setting a new standard for future generations of storage solutions.
1. High Density
DNA storage offers a remarkably high data density, far surpassing traditional storage media. A single gram of DNA can theoretically hold up to 215 petabytes (215 million gigabytes) of data. This incredible capacity means that DNA can store vast amounts of information in a minuscule physical space, addressing the growing demand for data storage without expanding physical footprints.
2. Longevity
Unlike conventional storage systems that degrade over time, DNA storage can preserve data for thousands of years under the right conditions. This longevity is due to DNA's stable chemical structure, making it an ideal medium for archiving historical data and ensuring that information can be passed down through generations without loss.
3. Energy Efficiency
DNA storage requires minimal energy to maintain. Once the data is encoded into DNA, it does not require electricity to preserve information, unlike digital storage systems that need continuous power to prevent data loss. This characteristic makes DNA storage a more sustainable and cost-effective solution for long-term data preservation.
4. Future-Proofing
Given the universal and enduring nature of DNA as a storage medium, data stored in DNA is likely to remain readable as long as there are technologies capable of reading genetic information. This future-proofs data in a way that current digital formats, which may become obsolete, cannot match.
While evaluating the different suppliers make sure to check the following criteria:
1. Data Security Measures
Ensure the supplier implements robust data security protocols, including encryption and physical security, to protect stored DNA information.
2. Storage Capacity and Scalability
Verify the supplier's capability to handle your current and future storage needs, facilitating easy scalability as your requirements grow.
3. Data Retrieval Efficiency
Consider the speed and efficiency with which you can access and retrieve stored DNA data, ensuring minimal downtime in critical situations.
4. Compliance and Certification
Check for compliance with relevant regulatory standards and certifications that guarantee the ethical handling and storage of DNA data.
5. Cost-effectiveness
Evaluate the pricing structure in relation to the services offered to ensure you receive value for your investment without compromising on quality or security.
DNA storage, an innovative technology, offers a high-density, long-term solution for data preservation, making it appealing across various industries. In the healthcare sector, DNA storage is utilized for securely archiving patient medical records and genetic information. This method ensures data integrity over generations, facilitating advanced research and personalized medicine by providing access to historical health data. In the field of information technology, companies leverage DNA storage for disaster recovery purposes. The exceptional durability and compact nature of DNA allow businesses to store vast amounts of data in a minimal physical space, ensuring critical information is retrievable following catastrophic events. The entertainment and media industries find DNA storage beneficial for archiving digital assets, such as films and music. This technology offers a solution to the challenge of digital obsolescence, ensuring that media content can be preserved and accessed for hundreds of years without degradation. Lastly, in the research and development sector, DNA storage is harnessed for managing extensive datasets generated from experiments and studies. This application supports the growing need for efficient data management strategies, enabling researchers to store and analyze data more effectively, thus accelerating scientific discovery. These use cases underscore DNA storage's versatility and potential to revolutionize data management strategies across different industries, offering a sustainable solution to the ever-increasing demand for data storage.
DNA storage, an innovative method for data archiving, currently finds itself at a Technology Readiness Level (TRL) of 3 to 4. This classification stems from the concept having undergone proof-of-concept validation in laboratory environments but not yet reaching a stage of development or demonstration in a real-world setting. The primary technical reasons anchoring DNA storage at this TRL include challenges related to its efficiency, cost, and speed. While the potential for DNA to store vast amounts of data in a minuscule physical space is well-documented, the current techniques for encoding, writing, and reading data to and from DNA are time-consuming and expensive. The synthesis of DNA to encode data is a slow process, and the sequencing needed to retrieve this data is both costly and complex. Moreover, the error rates in both writing and reading DNA data, although improving, still require significant advancements for DNA storage to be practical for widespread use. These technical hurdles must be overcome before DNA storage can progress to higher TRLs, where the technology would be demonstrated in operational environments and eventually commercialized for public use.
In the Short-Term, advancements in DNA storage are poised to focus on increasing data density and reducing error rates in synthesized DNA sequences. Researchers are working on refining techniques for encoding and retrieving data, aiming to make DNA storage more practical for smaller datasets. This phase is expected to see the development of more efficient algorithms for data encoding, which could significantly lower the cost and time required for DNA data storage and retrieval. The Mid-Term stage is likely to witness the integration of DNA storage solutions with existing data storage infrastructures. Efforts will be concentrated on scaling the technology to accommodate larger data volumes, alongside enhancing the durability and reliability of stored data. Breakthroughs in enzymatic synthesis methods could enable faster and more cost-effective DNA storage, making it a viable option for archival purposes in industries like healthcare and finance, where data longevity is crucial. Looking towards the Long-Term, DNA storage technology is anticipated to revolutionize the way we think about data preservation, with the potential to store the world's data in a space no larger than a few sugar cubes. Innovations may include the development of living storage systems, where data can be encoded into the DNA of living organisms. This phase could also see the establishment of global data banks that use DNA for long-term, high-density data storage, ensuring that the digital heritage of humanity is preserved for millennia.
Some interesting questions that has been asked about the results you have just received for DNA Storage
What are related technologies to DNA Storage?
Based on our calculations related technologies to DNA Storage are Biomedical (Red), Bioinformatics (Gold), Environmental Biotechnology (Grey), Agricultural Biotechnology (Green), Food Related Biotechnology (Yellow)
Which industries are mostly working on DNA Storage?
The most represented industries which are working in DNA Storage are Biotechnology, Science and Engineering, Health Care, Information Technology, Hardware
How does ensun find these DNA Storage Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.