Embedded Systems Conference
Breaking News
Comments
Newest First | Oldest First | Threaded View
<<   <   Page 2 / 2
rick merritt
User Rank
Author
Re: LOCSOI
rick merritt   10/10/2013 3:49:14 AM
NO RATINGS
@Resistion" Good question, but I don't have a good answer. I'l ask An to weigh in

resistion
User Rank
Author
Re: An's being generous to EUV
resistion   10/9/2013 10:55:44 PM
NO RATINGS
"Immersion systems may need 22 masks at 10nm, up from ten at 28nm, essentially using costly triple patterning in a handful of layers and double patterning at all others. EUV could cut that down to ten masks at 10nm, researchers estimate."

So, again confirming, essentially just one node (10 nm) for EUV single patterning. Same situation faced 157 nm, with far less drastic infrastructure changes required.

resistion
User Rank
Author
memory part
resistion   10/9/2013 10:29:41 PM
NO RATINGS
For the memory portion, I was a bit surprised that there was not more focus on vertical NAND or future vertical 3D-NVM. That technology has just recently been announced, while FinFETs have been around much longer.

Also, why so much focus on STT-MRAM? They should know it is quite a fragile device. More fragile than a transistor at leading edge. The read is not 100% non-destructive, for the spec that is expected (quadrillion times).

AKH0
User Rank
Author
14nm FDSOI
AKH0   10/9/2013 7:00:57 PM
NO RATINGS
To be clear, IMEC never really worked on 14nm FDSOI. This was developed by IBM-ST-Leti alliance. So, it really doen't mean anything if its is shown on IMEC's roadmap or not.

resistion
User Rank
Author
LOCSOI
resistion   10/9/2013 5:47:26 PM
NO RATINGS
7 nm shows LOCSOI - is that local SOI?

resistion
User Rank
Author
An's being generous to EUV
resistion   10/9/2013 8:02:08 AM
NO RATINGS
I watched/listened to a video interview in the past year given by Debra Vogler, in that interview An gave enough reasons to show why EUV is basically "out there" forever, saving my efforts. Dragging N10 and N7 nodes to a decade or longer, is "out there" forever.

<<   <   Page 2 / 2


Radio
LATEST ARCHIVED BROADCAST
As data rates begin to move beyond 25 Gbps channels, new problems arise. Getting to 50 Gbps channels might not be possible with the traditional NRZ (2-level) signaling. PAM4 lets data rates double with only a small increase in channel bandwidth by sending two bits per symbol. But, it brings new measurement and analysis problems. Signal integrity sage Ransom Stephens will explain how PAM4 differs from NRZ and what to expect in design, measurement, and signal analysis.

Datasheets.com Parts Search

185 million searchable parts
(please enter a part number or hit search to begin)
Most Recent Comments
samlebon2306
 
perl_geek
 
Clive
 
Clive
 
junko.yoshida
 
junko.yoshida
 
lakehermit
 
TonyTib
 
MeasurementBlues
Most Recent Messages
2/11/2016
1:23:21 PM
Like Us on Facebook
Special Video Section
The LTC®6363 is a low power, low noise, fully differential ...
Vincent Ching, applications engineer at Avago Technologies, ...
The LT®6375 is a unity-gain difference amplifier which ...
The LTC®4015 is a complete synchronous buck controller/ ...
10:35
The LTC®2983 measures a wide variety of temperature sensors ...
The LTC®3886 is a dual PolyPhase DC/DC synchronous ...
The LTC®2348-18 is an 18-bit, low noise 8-channel ...
The LT®3042 is a high performance low dropout linear ...
Chwan-Jye Foo (C.J Foo), product marketing manager for ...
The LT®3752/LT3752-1 are current mode PWM controllers ...
LED lighting is an important feature in today’s and future ...
Active balancing of series connected battery stacks exists ...
After a four-year absence, Infineon returns to Mobile World ...
A laptop’s 65-watt adapter can be made 6 times smaller and ...
An industry network should have device and data security at ...
The LTC2975 is a four-channel PMBus Power System Manager ...
In this video, a new high speed CMOS output comparator ...
The LT8640 is a 42V, 5A synchronous step-down regulator ...
The LTC2000 high-speed DAC has low noise and excellent ...
How do you protect the load and ensure output continues to ...