Storage

08:00 AM
Jim O'Reilly
Jim O'Reilly
Commentary
Connect Directly
LinkedIn
RSS
E-Mail
50%
50%

What's Next For Flash?

Today's 2D flash is near its limit. The industry is evolving to 3D flash and developing storage technologies that promise to be faster and denser.

Flash is just seven years old this year, and applications are just beginning to really take advantage of it, so a discussion of its demise and the arrival of alternatives may seem premature. The reality is that flash opened Pandora's Box on the storage front and upset a long period of stagnation. Innovation is happening fast now in the storage industry.

In addition to efforts to evolve from 2D flash to 3D flash, the industry is developing at least seven storage technologies touted as faster and denser successors to today's flash.

The developments come as flash is starting to hit the limits of physics. Both the density and the speed of current technologies are topped out. The density issue is leading to a generation of 3D NAND where storage cells are stacked vertically on a die, instead of horizontally. This will increase capacity per die into the terabit range, though it adds cost, both in processing and in flaw management.

Stacking die is another option that's attractive. The driving forces are performance and power dissipation. Using a technology called "through-silicon via," die can be stacked on top of one another with connections going from one layer to the next. This technology becomes really interesting with the Hybrid Memory Cube (HMC) architecture, which uses many serial links for the through-via communications and stacks DRAM or flash together.

HMC uses very little power, saving perhaps 80% over today's solutions for DRAM. It's also much faster. The current specification envisions terabyte-per-second speeds.

With 3D flash, the main result will be small devices with lots of memory, perhaps including 1-inch SSD and multi-terabyte 2.5-inch products. Throw in HMC, and we will see memory stacked on to CPUs directly, with capacities in the terabyte range for DRAM and multiple terabytes for flash.

Super-chip modules such as these will power in-memory databases and HPC systems, and they will expand virtualization and hosted desktops, but there will be spinoffs once the TSV process gets ironed out and is cheap enough to be mainstream. These include baby super-chip stacks for mobile devices, for instance.

For all these gains, however, flash is less than ideal as a DRAM extender. It's just too slow. Writing is often sped up in flash or SSD devices by using some DRAM as a write buffer, but this doesn't handle the read speed mismatch that we would see in HMC, and even the best caching algorithms can't solve that problem.

This is where the next innovations in solid-state storage become important. Most of these emerging technologies boast much faster speed, getting close to DRAM levels. Most are denser, at least in theory. But most are still in the research labs.

The likeliest contenders are spintronic memory, which is in production in very small capacities, and resistive RAM. There are claims for demonstrations of terabit spin memory, but the money is on ReRAM winning the race, at least at the moment. With that technology, we might get to half the latency of a DRAM cell. Combine it with the parallel access approach of HMC, and that would be very acceptable performance.

In the longer term -- perhaps a decade out -- graphene interconnect and its use as a substrate hold promise for speeding up CPU and memory transistors while drastically reducing power. This would allow 3D stacking of CPU cores and DRAM pages. It would also open up a market for very large, inexpensive solid-state drives as replacements for today's spinning disk bulk storage.

Flash underpins much of the change occurring in IT today. That's why it sees such strong evolutionary pressures. Persistent solid-state memory is clearly a technology area to watch, and how it moves forward will affect the whole IT community in major ways.

Jim O'Reilly was Vice President of Engineering at Germane Systems, where he created ruggedized servers and storage for the US submarine fleet. He has also held senior management positions at SGI/Rackable and Verari; was CEO at startups Scalant and CDS; headed operations at PC ... View Full Bio
Comment  | 
Print  | 
More Insights
Comments
Oldest First  |  Newest First  |  Threaded View
MarciaNWC
50%
50%
MarciaNWC,
User Rank: Strategist
8/18/2014 | 11:18:38 AM
3D flash
Jim, how far along are the efforts to develop 3D flash? Will we see it very soon on the market?
Whoopty
50%
50%
Whoopty,
User Rank: Strategist
8/18/2014 | 12:26:26 PM
Spintronics
Spintronics has always interested me as a next-step technology after our current computing methods hit their limit. It feels like a true manipulation of real world physics, rather than the much harder to understand quantum computing which is presumably more of an end goal for hardware (and ultimately software) development. 
joreilly925
50%
50%
joreilly925,
User Rank: Ninja
8/18/2014 | 2:07:06 PM
Re: 3D flash
Marcia, I think 3D flash will appear in volume next year.
joreilly925
50%
50%
joreilly925,
User Rank: Ninja
8/18/2014 | 2:10:47 PM
Re: Spintronics
Spintronics is elegant as a nonvolatile storage solution, I can see it being used today as an alternative to capacitive or battery holdup in SSD and RAID cards. Getting to high density and volume production is still challenging, and then there are economics to consider.
Brian.Dean
50%
50%
Brian.Dean,
User Rank: Ninja
8/18/2014 | 5:31:44 PM
Re: Spintronics
Agreed, there needs to be a certain level of market traction (high demand) before a technological advancement gains some form of exponential progress, without the market traction -- progress seems to follow a more linear graph. I feel Flash has gained a relativity good level of market traction over the last 7 years.

Last year, I heard about spinning hard drives that were filled with helium, these drives created the capability to increase storage beyond the 4TB range. But, after that I did not hear much about these hard drives, making me assume that the market requires speed over capacity.   
joreilly925
50%
50%
joreilly925,
User Rank: Ninja
8/18/2014 | 5:43:20 PM
Re: Spintronics
I think the helium spinning drives are just entering volume sales. My take is that we are seeing the long-term future of spinners as being bulk drives, competing on a $/GB basis. SSD are well on the way to taking over the performance end of the market.
Sherly Mendoza
50%
50%
Sherly Mendoza,
User Rank: Ninja
9/30/2014 | 10:29:15 PM
Re: Spintronics
If we are to observe what usually happens. new tech always appears around the time that the current one matures (because users demand, and businesses always want something new to sell to consumers).
Slideshows
Cartoon
Audio Interviews
Archived Audio Interviews
Jeremy Schulman, founder of Schprockits, a network automation startup operating in stealth mode, joins us to explore whether networking professionals all need to learn programming in order to remain employed.
White Papers
Register for Network Computing Newsletters
Current Issue
Video
Twitter Feed