115-GreyBeards talk database acceleration with Moshe Twitto, CTO&Co-founder, Pliops

We seem to be on a computational tangent this year. So we thought it best to talk with Moshe Twitto, CTO and Co-Founder at Pliops (@pliopsltd). We had first seen them at SFD21 (see videos of their sessions here) and their talk on how they could speed up database IO was pretty impressive. Essentially, they have a database/storage accelerator board used to increase block store IO activity to NVMe SSDs but also provide a key-value store IO accelerator,

Moshe was very knowledgeable about the technology and had previously worked at Samsung for their SSD group. He knew a lot about what happens underneath the covers of an SSD and what it takes to speed up IO. It turns out that many in memory databases use persistent key value stores to persist data or to operate in non- (or partial-) memory-mode. Listen to the podcast to learn more.

The Pliops board plugs into the PCIe bus and accelerates IO to NVMe SSDs connected to the bus or can act to accelerate IO to JBoF that’s networked behind it. Their board uses FPGA(s), NVDimms of their own design and DRAM to accelerate database IO using NVMe SSDS.

Pliops operates in one of two modes, as a Key-Value store or as a Block store. Their Key-Value store takes advantage of block store capabilities, so we start there.

In block mode, Pliops provides inline hardware data compression and encryption. Compression requires support for variable length blocks on backend SSDs. To better support this, they pack multiple compressed blocks into physical blocks. They also use a virtualization service to support mapping host LBAs to physical block addresses (using an internal key-value store). Hardware, inline encryption is also provided on a LUN (or namespace) basis. This could enable each database to have its own key. They have a root-of-trust secret key used to encrypt customer namespace (database) keys.

They also optimize physical block layouton the SSD to reduce write amplification (doing more than one write to the NAND for every host write to the SSD).

Block mode also supports smart caching. This is especially useful for database journaling/loging which reuses a portion of LBA address space (blocks} as a revolving journal/log. These blocks are overwritten with new data often and data written to them need not be destaged to NVMe SSDs as long as it can be maintained in NVDimm storage. At some point it gets destaged but probably only when log activity slows down (if ever) or some timeout occurs.

For their key-value storage accelerator, they have implemented an API that’s similar to RocksDB, a persistent key-value store, which is used as a physical storage backend for Reddis and similar in-memory databases. However, the challenge with RocksDB is that there are lots of tuning knobs/parameters. So getting right takes some work. But all this can be avoided just by using Pliops.

We didn’t talk too much about how their key-value store works. Moshe says they optimize the key structures and key data so that all database keys can be retained in their board’s memory and just by doing that, they can have immediate (1 IO) access to any data block pointed to by those keys.

He did mention that they provide ~the same performance for a database getting 10-25% host cache hit rates using their board as that same database would support with a 80-90% host cache hit rate not using their board. Some of this was shown at SFD21 (so check out the videos above for more performance info)

A couple of other advantages they bring to the table. As they are interposed between the host and the NVMe SSDs they can take advantage of their NVDIMMs and memory to write much wider stripes than the host writes. This allows them to reduce SSD read and write amplification (due to less garbage collection) by writing more full NAND pages. All this also reduces physical host (data) writes/day which can significantly improve SSD endurance.

Somewhere in all that smart caching and data compression, they are able to also decrease response times It turns out that databases that don’t use RocksDB or depend on key-value stores can easily take advantage of all their block store functionality to improve IO performance.

They mostly market their product to hyperscalers and superscalers. His definition of super-scalers was any organization that operates at public cloud levels but is not a public cloud (e.g., big social media companies).

Moshe Twitto, CTO & Co-founder Pliops

Moshe is an expert in advanced data management and coding algorithms. Prior to co-founding Pliops, Moshe served as CTO of Samsung’s SSD Controller Development Center in Israel.

Moshe holds MSEE, BSEE degrees from Technion University, Summa Cum Laude and served in the Unit 8200 Intelligence Division of the Israel Defense Corps.

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