Spansion recently introduced a NOR flash that the company boasts is the: “World’s fastest NOR flash memory”. Named HyperFlash, the chip taps into high-speed SPI interface, doubling its width and adding a differential clock to run at an I/O rates as high as 333MB/s.
In this post’s graphic (click to enlarge) Spansion compares the HyperFlash chip’s sustained read rate (right-hand column) to that of (from left to right) asynchronous parallel NOR, single-bit SPI, industry-standard DDR Quad SPI, and Spansion’s faster rendition of DDR Quad SPI, which Spansion tells us, until now, has been the fastest flash on the market. The company points out that HyperFlash is five times the speed of industry-standard Continue reading
I was recently directed to a very interesting blog post written by 3D technologist Andrew Walker of Schiltron in which he compares two NAND flash chips that were presented at the IEEE International Solid State Circuits Conference (ISSCC) on February 12.
The post, titled Samsung’s V-NAND Flash at the 2014 ISSCC: Ye Distant Spires… is on the 3D InCites website.
Dr. Walker puts a lot more time and effort into his graphic representations of 3D NAND chips than do others (The Memory Guy included) and this makes it much easier to understand the issues he points out. He shows us that Samsung’s 3D NAND cell is about 5 times the size of a 40nm planar NAND cell and about 30 times that of Micron’s 16nm planar cell, and that the 3D NAND’s physical area is unlikely to change with any future 3D technology generations.
For this and other reasons (given in the article) he states that the Samsung V-NAND is “an impressive achievement but not a realistic foundation for the future.”
After having compiled my series on 3D NAND I can appreciate Dr. Walker’s opinion. This is certainly going to be a difficult technology to master, and it could be quite some time before the cost structure for 3D NAND can compete against that of today’s planar technologies.
Give the Walker post a quick read and judge for yourself whether we are at the brink of a 3D conversion or if this technology can be expected to slip out a few years.
The graphic for this post (click to enlarge), supplied by ASML, the semiconductor industry’s leading lithography tool supplier, illustrates the challenge of migrating from one process node to the next. Across the bottom, on the X-axis, are representative process nodes ranging from “2D-45″, or two-dimensional (planar) 45nm NAND, to “3D-5x”, or three-dimensional 5xnm NAND. Below these numbers are the year of volume production.
The vertical axis, labeled “Tolerance” represents the minimum Continue reading
Every so often something very strange happens that puzzles The Memory Guy. On December 29 (or Dec. 30 in Seoul) something odd occurred.
I received two e-mails, one from SK hynix at 3:55 PM Pacific Time, and one from Samsung exactly one hour later. Both were press releases.
The SK hynix release was titled: “SK Hynix Developed the World’s First Next Generation Mobile Memory LPDDR4″. It announced that the company is sampling its 20nm-class 8Gb LPDDR4 DRAM to customers.
The Samsung release was Continue reading
This series has looked at 3D NAND technology in a good deal of technical depth. The last question to be answered centers around the players and the timing of the technology. A lot has been said about the technology and its necessity. Will everyone be making 3D NAND? When will this big transition occur?
This post will provide an update as of its publication (13 December 2013) to show each company’s current status, to the best of The Memory Guy’s understanding. Readers may want to refer back to the earlier posts in this series, as well as to a June 2013 Nikkei TechON article that gives a good review of the 3D NAND alternatives that have been presented at various technical conferences.
Let’s start with Samsung, the largest producer of NAND flash today. Just prior to Memcon 2013 last Continue reading
Rambus and Micron announced on Tuesday that they have signed a patent cross license agreement. Micron receives rights to Rambus IC patents, including memories. Both Micron and Elpida products will be covered. The companies have thus settled all outstanding patent and antitrust claims in their 13-year court battle.
Micron will make royalty payments to Rambus of up to $10 million per quarter over the next seven years, totaling $280 million, after which Micron will receive a perpetual, paid-up license.
Rambus and Micron both have Continue reading
A very unusual side effect of the move to 3D NAND will be the impact on the equipment market. 3D NAND takes the pressure off of lithographic steps and focuses more attention on deposition and etch. The reason for going to 3D is that it provides a path to higher density memories without requiring lithographic shrinks.
This sounds like bad news for stepper makers like ASML, Canon, and Nikon while it should be a boon to deposition and etch equipment makers like Applied Materials, Tokyo Electron, and Lam Research.
In its summer 2013 V-NAND announcement, Samsung explained that it would be Continue reading
The answer is: “There is no such thing: It’s a misstatement.”
The term “MLC” has, by a number of people, been mistranslated to “multi-layer cell.” The misunderstanding appears to have originated in the financial community. People in the flash memory business never use the term at all.
Yes, we talk about MLC, but to us the term means “multilevel cell”.
A multilevel cell is a cell that uses varying voltage levels to represent different states. With four voltage levels the resulting four states on a single cell can be turned into Continue reading
In a word: No.
(Before I get too far into this allow me to admit that The Memory Guy doesn’t understand quantum physics, so I will be presenting this only to the depth that I understand it. There will be no band-gap diagrams or equations to wrestle with.)
Both 3D NAND and planar NAND use Fowler Nordheim Tunneling (FN) to both program and erase. This differs from NOR flash which programs bits using Continue reading
At the Flash Memory Summit in August I had the honor of awarding Fujio Masuoka, the inventor of both NAND and NOR flash, the Flash Memory Summit Lifetime Achievement Award. This award is given to the giants of the flash memory industry to acknowledge their contributions.
Dr. Masuoka first described NOR flash at the 1984 International Electron Device Meeting (IEDM) in San Francisco, and NAND flash at the same venue in 1987. His paper “A new flash EEPROM cell using triple polysilicon technology” introduced a technology that is now used everywhere.
The award has also been given to Intel’s Flash team who brought the first commercial products to the market, and SanDisk co-founder Eli Harari, for devising a way to manufacture a floating gate.