A group of researchers from the Massachusetts Institute of Technology (MIT) and the University of Technology and Single Design (SUTD) have discovered that the speed of supercomputers could be increased by Using biological virus called M13 phage which is genetically designed to produce a more effective memory format, according to the inspection published on 20 November in the ACS Applied Material & Interfaces magazine.
When a computer moves data from the fastest but unavailable (RAM) memory memory only (ROM), or permanent storage, the process of a few dimensions will last.
If this system – which uses two parts – can be replaced with one-system storage that reminds of changing stage, the process would accelerate and almost not; he got a few nanoseconds. Memory reminds a change faster than RAM and even more storage is in a hard disk.
However, memory technology is changing a step that needs material that can change a form, changing from a state of a state to a state. At present, these dairy types can not be separated but when they reach the necessary essential temperature, which makes it difficult to bring these materials into computerized circuits.
"Our research team has been able to find a way to overcome this huge bumper with small cable technology," a & # 39; Desmond Loke, a professor associated with the SUTD and one of the researchers who participated in the study. The sciences were found that bacteriophage M13 could be used to use caterpillar data in lower temperatures, so that level memory can be created.