Stepping ‘beyond binary’ to store data in more than just 0s and 1s — ScienceDaily

Electronic data is being produced at a breath-taking rate.

The total amount of data stored in data centres around the globe is of the order of ten zettabytes (a zettabyte is a trillion gigabytes), and we estimate that amount doubles every couple of years.

With 8% of global electricity already being consumed in information and communication technology (ICT), low-energy data-storage is a key priority.

To date there is no clear winner in the race for next-generation memory that is non-volatile, has great endurance, highly energy efficient, low cost, high density, and allows fast access operation.

The joint international team comprehensively reviews ‘multi-state memory’ data storage, which steps ‘beyond binary’ to store more data than just 0s and 1s.


Multi-state memory is an extremely promising technology for future data storage, with the ability to store data in more than a single bit (ie,

Read More
Read More

Eurazeo Is Stepping Up Its Commitment To ESG With O+ Targeting Zero Net Carbon By 2040 Playing A Role In Bridging The Widening Social Gaps

PARIS, Sept. 21, 2020 /PRNewswire/ — Today, Eurazeo announces the launch of O+, the new step of its ambitious environmental, social and governance (ESG) strategy, which aims to drive positive change in society by working toward shared and sustainable prosperity. For nearly 15 years, Eurazeo has been at the forefront of responsible investment in private equity and is constantly seeking to integrate the highest ESG standards, in line with the UN Sustainable Development Goals. O+ has two main pillars: achieving zero net carbon by 2040 at the latest and playing a role in bridging the widening social gaps.

Accelerating the transition to a low carbon economy and committing to zero net carbon across the Group by 2040

Eurazeo, as the first company in its sector to set such an ambitious goal, looks to achieve zero net carbon by 2040, in alignment with the Science Based Targets initiative. To achieve optimum

Read More
Read More