![SSD + ReRAM hybrid SSD technology that reduces power consumption by 93% and writing speed 11 times - GIGAZINE SSD + ReRAM hybrid SSD technology that reduces power consumption by 93% and writing speed 11 times - GIGAZINE](http://i.gzn.jp/img/2012/06/20/hybrid-reram-nand-ssd/snap0116.png)
SSD + ReRAM hybrid SSD technology that reduces power consumption by 93% and writing speed 11 times - GIGAZINE
![Figure 1 from 0.6 V operation, 16 % faster set/reset ReRAM boost converter with adaptive buffer voltage for ReRAM and NAND flash hybrid solid-state drives | Semantic Scholar Figure 1 from 0.6 V operation, 16 % faster set/reset ReRAM boost converter with adaptive buffer voltage for ReRAM and NAND flash hybrid solid-state drives | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/aff31598831b8a9845edc066489722ba79a0f816/1-Figure1-1.png)
Figure 1 from 0.6 V operation, 16 % faster set/reset ReRAM boost converter with adaptive buffer voltage for ReRAM and NAND flash hybrid solid-state drives | Semantic Scholar
![SSD + ReRAM hybrid SSD technology that reduces power consumption by 93% and writing speed 11 times - GIGAZINE SSD + ReRAM hybrid SSD technology that reduces power consumption by 93% and writing speed 11 times - GIGAZINE](http://i.gzn.jp/img/2012/06/20/hybrid-reram-nand-ssd/6345916908_d71f1f91bf.jpg)
SSD + ReRAM hybrid SSD technology that reduces power consumption by 93% and writing speed 11 times - GIGAZINE
![A High Performance and Energy-Efficient Cold Data Eviction Algorithm for 3D-TSV Hybrid ReRAM/MLC NAND SSD | Semantic Scholar A High Performance and Energy-Efficient Cold Data Eviction Algorithm for 3D-TSV Hybrid ReRAM/MLC NAND SSD | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/d2b3fc9da406258d19bce67ff9731519576a8d02/3-Figure4-1.png)