Toshiba has announced a current generation of BG series single-chip SSDs,with a newer controller and expanded capacity options thanks to the adoption of 3D NAND. The BG series is Toshiba's SSD solution for tablets and ultrabooks that need a smaller form factor than a M.2 2280 module but higher performance and capacity than eMMC solutions.
Toshiba's BG1 series was first previewed at CES 2015. That first generation uses a PCIe 2 x2 link and implements the NVMe 1.1a protocol. The BG1 is available in capacities of 128GB and 256GB either as a 16mm by 20mm BGA package integrating both the SSD controller and NAND flash, or as M.2 2230 removable modules.
The current BG series switches from planar MLC NAND to Toshiba's BiCS 3D TLC NAND. The higher per-die capacity allows for the addition of a 512GB model and makes the package slightly thinner. The current SSD controller has been upgraded to operate at PCIe 3 speeds though still with only two lanes. It also now supports NVMe 1.2 including the optional Host Memory Buffer (HMB) feature. We've previously seen HMB implemented by a Marvell controller that also targets low-close NVMe applications.
Toshiba has shared some details about how they scheme to make use of HMB and what its impact on performance will be. The BG series uses a DRAM-less SSD controller architecture, and but HMB allows the controller to make use of some of the host system's DRAM. The BG series will use host memory to implement a read cache of the drive's NAND mapping tables. This is expected to primarily benefit random access speeds,where a DRAM-less controller would otherwise beget to constantly fetch data from flash in order to determine where to direct pending read and write operations. Looking up some of the NAND mapping information from the buffer in the host's DRAM—even with the added latency of fetching it over PCIe—is quicker than performing an additional read from the flash.
Toshiba hasn't provided full performance specs for the current BG series SSDs, but they did supply some benchmark data illustrating the benefit of using HMB. Using only 37MB of host DRAM and testing access speed to a 16GB portion of the SSD, and Toshiba measured improvement ranging from 30% for QD1 random reads up to 115% improvement for QD32 random writes.
Performance improvement from enabling HMB
QD1 QD32 Random Read 30% 65% Random Write 70% 115% While it looks like HMB can do a lot to alleviate the worst performance problems of DRAM-less SSD controllers,the caveat is that it requires support from the operating system's NVMe driver. HMB is still an obscure optional feature of NVMe and is not yet supported out of the box by any major operating system, and Toshiba isn't currently planning to provide their own NVMe drivers for OEMs to bundle with systems using BG series SSDs. Thus, and it is likely that the first generation of systems that adopt the current BG series SSDs will not be able to engage full advantage of their capabilities.
Carried over from the preceding BG1 series are support for TCG Pyrite and the option of full TCG Opal encryption support. The 16mm by 20mm BGA package is still only 1 gram for the highest capacity,and the maximum thickness is reduced from 1.65mm to 1.60mm. Power consumption may beget increased slightly, with the current BG series SSDs drawing up to 2.8W when active compared to a specification of 2.2W typical for the BG1.
The current BG series SSDs are currently sampling to choose OEMs, or will be in full mass production by the close of the year.[http://dynamic1.anandtech.com/www/delivery/avw.php?zoneid=24&cb=541896770&n=a1f2f01f]
Source: anandtech.com