• Welcome to TechPowerUp Forums, Guest! Please check out our forum guidelines for info related to our community.

TSMC to Commence 10 nm Volume Production by Q4-2016

btarunr

Editor & Senior Moderator
Staff member
Joined
Oct 9, 2007
Messages
47,244 (7.55/day)
Location
Hyderabad, India
System Name RBMK-1000
Processor AMD Ryzen 7 5700G
Motherboard ASUS ROG Strix B450-E Gaming
Cooling DeepCool Gammax L240 V2
Memory 2x 8GB G.Skill Sniper X
Video Card(s) Palit GeForce RTX 2080 SUPER GameRock
Storage Western Digital Black NVMe 512GB
Display(s) BenQ 1440p 60 Hz 27-inch
Case Corsair Carbide 100R
Audio Device(s) ASUS SupremeFX S1220A
Power Supply Cooler Master MWE Gold 650W
Mouse ASUS ROG Strix Impact
Keyboard Gamdias Hermes E2
Software Windows 11 Pro
Semiconductor foundry TSMC assured its clients that the company will be ready with a 10 nanometer manufacturing node for volume production, by the 4th quarter of 2016. Company president and joint-CEO Mark Liu made this announcement during the company's recent Q2-2015 earnings call. "The recent progress of our 10 nanometer technology development is very encouraging and on track with our plan," he said. With volume production of chips commencing in Q4, some of the first products based on them should begin appearing in early-2017. "We ramp up 10 nm in the Q4 2016 next year, but the real product shipment will be in Q1 2017," said C.C. Wei, co-CEO.



View at TechPowerUp Main Site
 
Joined
Aug 20, 2007
Messages
21,471 (3.40/day)
System Name Pioneer
Processor Ryzen R9 9950X
Motherboard GIGABYTE Aorus Elite X670 AX
Cooling Noctua NH-D15 + A whole lotta Sunon and Corsair Maglev blower fans...
Memory 64GB (4x 16GB) G.Skill Flare X5 @ DDR5-6000 CL30
Video Card(s) XFX RX 7900 XTX Speedster Merc 310
Storage Intel 905p Optane 960GB boot, +2x Crucial P5 Plus 2TB PCIe 4.0 NVMe SSDs
Display(s) 55" LG 55" B9 OLED 4K Display
Case Thermaltake Core X31
Audio Device(s) TOSLINK->Schiit Modi MB->Asgard 2 DAC Amp->AKG Pro K712 Headphones or HDMI->B9 OLED
Power Supply FSP Hydro Ti Pro 850W
Mouse Logitech G305 Lightspeed Wireless
Keyboard WASD Code v3 with Cherry Green keyswitches + PBT DS keycaps
Software Gentoo Linux x64 / Windows 11 Enterprise IoT 2024
Still not the rate of development we had, but heck, if they can stick to that deadline it's better than our current nodes and I'll take what I can get...
 
Joined
Mar 6, 2012
Messages
569 (0.12/day)
Processor i5 4670K - @ 4.8GHZ core
Motherboard MSI Z87 G43
Cooling Thermalright Ultra-120 *(Modded to fit on this motherboard)
Memory 16GB 2400MHZ
Video Card(s) HD7970 GHZ edition Sapphire
Storage Samsung 120GB 850 EVO & 4X 2TB HDD (Seagate)
Display(s) 42" Panasonice LED TV @120Hz
Case Corsair 200R
Audio Device(s) Xfi Xtreme Music with Hyper X Core
Power Supply Cooler Master 700 Watts
Query - What happens when physically its not possible any further shrink ???
 
Joined
Jul 23, 2011
Messages
1,586 (0.33/day)
Location
Kaunas, Lithuania
System Name my box
Processor AMD Ryzen 9 5950X
Motherboard ASRock Taichi x470 Ultimate
Cooling NZXT Kraken x72
Memory 2×16GiB @ 3200MHz, some Corsair RGB led meme crap
Video Card(s) AMD [ASUS ROG STRIX] Radeon RX Vega64 [OC Edition]
Storage Samsung 970 Pro && 2× Seagate IronWolf Pro 4TB in Raid 1
Display(s) Asus VG278H + Asus VH226H
Case Fractal Design Define R6 Black TG
Audio Device(s) Using optical S/PDIF output lol
Power Supply Corsair AX1200i
Mouse Razer Naga Epic
Keyboard Keychron Q1
Software Funtoo Linux
Benchmark Scores 217634.24 BogoMIPS
Query - What happens when physically its not possible any further shrink ???

Well, most likely... "instead of shrinking, expand!"

hint: the third dimension
 
Joined
May 13, 2008
Messages
762 (0.13/day)
System Name HTPC whhaaaat?
Processor 2600k @ 4500mhz
Motherboard Asus Maximus IV gene-z gen3
Cooling Noctua NH-C14
Memory Gskill Ripjaw 2x4gb
Video Card(s) EVGA 1080 FTW @ 2037/11016
Storage 2x512GB MX100/1x Agility 3 128gb ssds, Seagate 3TB HDD
Display(s) Vizio P 65'' 4k tv
Case Lian Li pc-c50b
Audio Device(s) Denon 3311
Power Supply Corsair 620HX
Query - What happens when physically its not possible any further shrink ???

Many of the things you currently see with technologies like NAND or even HBM; change of material, die-stacking, etc.

Well, most likely... "instead of shrinking, expand!"

hint: the third dimension

Right. TSV, etc etc.


My query: What comes first: 10nmHP (or simply being able to scale the process to larger or more power-hungry applications) or Intel's full transition (including HEDT) to 10nm? This is not just wrt to TSMC, but also Samsung/GF. While products based on it probably won't appear until 2018 (read: the infamous Volta etc), and granted surely Intel (with it's shorter lead time) will have products by then...It would be an interesting thing if there is ANY overlap, as in theory (read: paper specs based on gate sizes and sram tests) those processes should trump Intel's 14nm. If nothing else, exciting purely on the fact the gap, while perhaps not disappearing, is certainly shortening very quickly. It shall be even more exciting if Samsung/TSMC partners do indeed embrace more 3D designs, where-as Intel seems much more quiet in that regard.
 
Last edited:
Joined
Sep 7, 2011
Messages
2,785 (0.58/day)
Location
New Zealand
System Name MoneySink
Processor 2600K @ 4.8
Motherboard P8Z77-V
Cooling AC NexXxos XT45 360, RayStorm, D5T+XSPC tank, Tygon R-3603, Bitspower
Memory 16GB Crucial Ballistix DDR3-1600C8
Video Card(s) GTX 780 SLI (EVGA SC ACX + Giga GHz Ed.)
Storage Kingston HyperX SSD (128) OS, WD RE4 (1TB), RE2 (1TB), Cav. Black (2 x 500GB), Red (4TB)
Display(s) Achieva Shimian QH270-IPSMS (2560x1440) S-IPS
Case NZXT Switch 810
Audio Device(s) onboard Realtek yawn edition
Power Supply Seasonic X-1050
Software Win8.1 Pro
Benchmark Scores 3.5 litres of Pale Ale in 18 minutes.
My query: What comes first: 10nmHP (or simply being able to scale the process to larger or more power-hungry applications) or Intel's full transition (including HEDT) to 10nm?
Probably neck and neck, TSMC might get there first simply because they NEED to, although Intel seem to be playing a longer game - making sure they have the tooling in place for both 10nm and 7nm ramps. Both Intel and TSMC (as well as Samsung) have a common bottleneck - tooling and validation from ASML. Intel poured cash into a 15% stake in ASML (which is double that of Samsung and TSMC combined), and their initial order for fifteen systems should get them through validation, risk production, and somewhat limited commercial production. I suspect that TSMC and Samsung will concentrate on 10nm and then adapt to 7nm, while Intel could very well develop both processes pretty much concurrently.
 
Joined
Sep 15, 2011
Messages
6,728 (1.39/day)
Processor Intel® Core™ i7-13700K
Motherboard Gigabyte Z790 Aorus Elite AX
Cooling Noctua NH-D15
Memory 32GB(2x16) DDR5@6600MHz G-Skill Trident Z5
Video Card(s) ZOTAC GAMING GeForce RTX 3080 AMP Holo
Storage 2TB SK Platinum P41 SSD + 4TB SanDisk Ultra SSD + 500GB Samsung 840 EVO SSD
Display(s) Acer Predator X34 3440x1440@100Hz G-Sync
Case NZXT PHANTOM410-BK
Audio Device(s) Creative X-Fi Titanium PCIe
Power Supply Corsair 850W
Mouse Logitech Hero G502 SE
Software Windows 11 Pro - 64bit
Benchmark Scores 30FPS in NFS:Rivals
Very late. But then again, Intel always had better engineers and R&D... We also should watch Samsung closely.
 
Joined
Nov 18, 2010
Messages
7,553 (1.47/day)
Location
Rīga, Latvia
System Name HELLSTAR
Processor AMD RYZEN 9 5950X
Motherboard ASUS Strix X570-E
Cooling 2x 360 + 280 rads. 3x Gentle Typhoons, 3x Phanteks T30, 2x TT T140 . EK-Quantum Momentum Monoblock.
Memory 4x8GB G.SKILL Trident Z RGB F4-4133C19D-16GTZR 14-16-12-30-44
Video Card(s) Sapphire Pulse RX 7900XTX. Water block. Crossflashed.
Storage Optane 900P[Fedora] + WD BLACK SN850X 4TB + 750 EVO 500GB + 1TB 980PRO+SN560 1TB(W11)
Display(s) Philips PHL BDM3270 + Acer XV242Y
Case Lian Li O11 Dynamic EVO
Audio Device(s) SMSL RAW-MDA1 DAC
Power Supply Fractal Design Newton R3 1000W
Mouse Razer Basilisk
Keyboard Razer BlackWidow V3 - Yellow Switch
Software FEDORA 41
10nm and then adapt to 7nm, while Intel could very well develop both processes pretty much concurrently.

I can bet it's being done to minimize the risk, as one of those nodes could flop again. They may know something, that others don't do.
 
Last edited:
Joined
May 13, 2008
Messages
762 (0.13/day)
System Name HTPC whhaaaat?
Processor 2600k @ 4500mhz
Motherboard Asus Maximus IV gene-z gen3
Cooling Noctua NH-C14
Memory Gskill Ripjaw 2x4gb
Video Card(s) EVGA 1080 FTW @ 2037/11016
Storage 2x512GB MX100/1x Agility 3 128gb ssds, Seagate 3TB HDD
Display(s) Vizio P 65'' 4k tv
Case Lian Li pc-c50b
Audio Device(s) Denon 3311
Power Supply Corsair 620HX
I suspect that TSMC and Samsung will concentrate on 10nm and then adapt to 7nm, while Intel could very well develop both processes pretty much concurrently.

I believe you will end up being correct, but we shall see. IIRC TSMC has indeed mentioned 7nm will be closer to what us folk refer to as an optical shrink (or other small design change), rather than a full transition. IOW, (and I know you already know this) not unlike 14nm is from 20nm, 40 was from 45, 55 from 65, etc. Whenever I have tried to search for an updated outlook on TSMC's plans, which granted has been a while, I seem to recall mentions of things like triple-patterning...and I just shake my head. Don't get me wrong, they sure as hell know more about what they are doing than I do, and we all know R&D is ridiculously expensive, but sometimes I question TSMC. Unlike Samsung, whom will happily suffer a long, slow, ramp to achieve their goals...TSMC seems more the type to rush themselves there and then deal with the consequences of faux pas (ex: vias issues and lack of HKMG on 40nm) after the fact. The difference being now they actually have competition...they can't simply force Apple, Qualcomm, AMD, and nVIDIA to deal with it. I seriously don't know if that will make them better...or worse.

I truly think Samsung (or essentially whatever ties that bind the loose CPA) is the wild card. While their 10nm improvements and ramp schedules could go either way, I really am curious of the plan for 7nm. While I'm not one for conspiracy theories (ok, I guess I am), I have to wonder how deep the rabbit hole between them and GF goes. You know, the same company that bought IBM's chip division which recently had a gigantic breakthrough regarding 7nm...
 
Last edited:
Joined
Apr 19, 2012
Messages
12,062 (2.62/day)
Location
Gypsyland, UK
System Name HP Omen 17
Processor i7 7700HQ
Memory 16GB 2400Mhz DDR4
Video Card(s) GTX 1060
Storage Samsung SM961 256GB + HGST 1TB
Display(s) 1080p IPS G-SYNC 75Hz
Audio Device(s) Bang & Olufsen
Power Supply 230W
Mouse Roccat Kone XTD+
Software Win 10 Pro
Query - What happens when physically its not possible any further shrink ???

Switch from Silicon to Gallium Arsenide. After that, Quantum!
 
Joined
Sep 7, 2011
Messages
2,785 (0.58/day)
Location
New Zealand
System Name MoneySink
Processor 2600K @ 4.8
Motherboard P8Z77-V
Cooling AC NexXxos XT45 360, RayStorm, D5T+XSPC tank, Tygon R-3603, Bitspower
Memory 16GB Crucial Ballistix DDR3-1600C8
Video Card(s) GTX 780 SLI (EVGA SC ACX + Giga GHz Ed.)
Storage Kingston HyperX SSD (128) OS, WD RE4 (1TB), RE2 (1TB), Cav. Black (2 x 500GB), Red (4TB)
Display(s) Achieva Shimian QH270-IPSMS (2560x1440) S-IPS
Case NZXT Switch 810
Audio Device(s) onboard Realtek yawn edition
Power Supply Seasonic X-1050
Software Win8.1 Pro
Benchmark Scores 3.5 litres of Pale Ale in 18 minutes.
I truly think Samsung (or essentially whatever ties that bind the loose CPA) is the wild card. While their 10nm improvements and ramp schedules could go either way, I really am curious of the plan for 7nm.
I've looked around to try to find any mention of tool contracts for Samsung, but as of this time it seems that their orders lag behind Intel and TSMC. The closest thing to a schedule I've found was this:
Wennink says ASML expects to deliver four NXE:3350Bs in 2015 in addition to two already on order. With Intel and TSMC already down for two of the leading-edge machines each, it’s possible that Samsung is also expected to confirm an order for the machine.
I know that the NXE:3300B can be retrofitted for sub-10nm production (and is in progress - I think the risk production at Intel is using the system), but I wouldn't be too sure about throughput or commercial viability (cost per wafer) though. The order book for ASML is easy enough to ascertain, but the retrofitting/updating of existing systems seems a little harder to quantify

While I'm not one for conspiracy theories (ok, I guess I am), I have to wonder how deep the rabbit hole between them and GF goes. You know, the same company that bought IBM's chip division which recently had a gigantic breakthrough regarding 7nm...
AFAIA, the 7nm IBM node is FD-SOI. IBM are partnering with ST-Micro, and SOITEK ( who I think are still the biggest (only?) suppliers of SOI process wafers). No doubt, ST-Micro will offer licences - and GloFo has already licenced ST-Micro's 14nm FD-SOI (which GloFo calls 22FDX), although they had previously licenced STM's 20nm - which has since been shelved. Samsung and STM are pretty close, so it wouldn't surprise to see GloFo weigh in.
 
Joined
Mar 28, 2014
Messages
586 (0.15/day)
Processor AMD FX-8320
Motherboard AsRock 970 PRO3 R2.0
Cooling Thermalright Ultra120 eXtreme + 2 LED Green fans
Memory 2 x 4096 MB DDR3-1333 A-Data
Video Card(s) SAPPHIRE 4096M R9 FURY X 4G D5
Storage ST1000VX000 • SV35.6 Series™ 1000 GB 7200 rpm
Display(s) Acer S277HK wmidpp 27" 4K (3840 x 2160) IPS
Case Cooler Master HAF 912 Plus Black + Red Lights
Audio Device(s) Onboard Realtek
Power Supply OCZ ProXStream 1000W
Mouse Genius NetScroll 100X
Keyboard Logitech Wave
Software Windows 7 Ultimate 64-bit
TSMC marketing shows signs that they do not sleep. But perhaps we should put them to rest.

These guys haven't shown yet a single working mass produced 16-nm product, it's extremely annoying that they open their big mouths with false promises.
 
Joined
May 13, 2008
Messages
762 (0.13/day)
System Name HTPC whhaaaat?
Processor 2600k @ 4500mhz
Motherboard Asus Maximus IV gene-z gen3
Cooling Noctua NH-C14
Memory Gskill Ripjaw 2x4gb
Video Card(s) EVGA 1080 FTW @ 2037/11016
Storage 2x512GB MX100/1x Agility 3 128gb ssds, Seagate 3TB HDD
Display(s) Vizio P 65'' 4k tv
Case Lian Li pc-c50b
Audio Device(s) Denon 3311
Power Supply Corsair 620HX
AFAIA, the 7nm IBM node is FD-SOI. IBM are partnering with ST-Micro, and SOITEK ( who I think are still the biggest (only?) suppliers of SOI process wafers). No doubt, ST-Micro will offer licences - and GloFo has already licenced ST-Micro's 14nm FD-SOI (which GloFo calls 22FDX), although they had previously licenced STM's 20nm - which has since been shelved. Samsung and STM are pretty close, so it wouldn't surprise to see GloFo weigh in.

http://www.eetimes.com/document.asp?doc_id=1327087

ee times said:
The three major breakthroughs made by IBM to produce its test chip is the perfection of EUV lithography, the successful deposition of strained silicon-germanium transistor channels on bulk silicon wafers, and its optimization of middle-of-the-line and back-end-of-line processing for minimization of parasitic capacitance, thereby making its process manufacturable by merely transferring it to a 7-nanometer fab (which will cost GlobalFoundries and Samsung upwards of $6-to-10 billion each to build).
 
Joined
Sep 15, 2011
Messages
6,728 (1.39/day)
Processor Intel® Core™ i7-13700K
Motherboard Gigabyte Z790 Aorus Elite AX
Cooling Noctua NH-D15
Memory 32GB(2x16) DDR5@6600MHz G-Skill Trident Z5
Video Card(s) ZOTAC GAMING GeForce RTX 3080 AMP Holo
Storage 2TB SK Platinum P41 SSD + 4TB SanDisk Ultra SSD + 500GB Samsung 840 EVO SSD
Display(s) Acer Predator X34 3440x1440@100Hz G-Sync
Case NZXT PHANTOM410-BK
Audio Device(s) Creative X-Fi Titanium PCIe
Power Supply Corsair 850W
Mouse Logitech Hero G502 SE
Software Windows 11 Pro - 64bit
Benchmark Scores 30FPS in NFS:Rivals
Switch from Silicon to Gallium Arsenide. After that, Quantum!
You mean picometre (pm)? Neh, there is no tech yet to go atom level, not to mention sub-atomic...
 
Joined
Mar 28, 2014
Messages
586 (0.15/day)
Processor AMD FX-8320
Motherboard AsRock 970 PRO3 R2.0
Cooling Thermalright Ultra120 eXtreme + 2 LED Green fans
Memory 2 x 4096 MB DDR3-1333 A-Data
Video Card(s) SAPPHIRE 4096M R9 FURY X 4G D5
Storage ST1000VX000 • SV35.6 Series™ 1000 GB 7200 rpm
Display(s) Acer S277HK wmidpp 27" 4K (3840 x 2160) IPS
Case Cooler Master HAF 912 Plus Black + Red Lights
Audio Device(s) Onboard Realtek
Power Supply OCZ ProXStream 1000W
Mouse Genius NetScroll 100X
Keyboard Logitech Wave
Software Windows 7 Ultimate 64-bit
You mean picometre (pm)? Neh, there is no tech yet to go atom level, not to mention sub-atomic...

A transistor on TSMC's 16nm FF+ would have an area more than 5120 nm².

Can you imagine how far is that so called """16""" nm from anything atom level.

Yes, I would guess there should be pm technologies (because marketing decides :laugh: ) sooner or later.
 
Joined
Dec 28, 2012
Messages
3,893 (0.89/day)
System Name Skunkworks 3.0
Processor 5800x3d
Motherboard x570 unify
Cooling Noctua NH-U12A
Memory 32GB 3600 mhz
Video Card(s) asrock 6800xt challenger D
Storage Sabarent rocket 4.0 2TB, MX 500 2TB
Display(s) Asus 1440p144 27"
Case Old arse cooler master 932
Power Supply Corsair 1200w platinum
Mouse *squeak*
Keyboard Some old office thing
Software Manjaro
TSMC marketing shows signs that they do not sleep. But perhaps we should put them to rest.

These guys haven't shown yet a single working mass produced 16-nm product, it's extremely annoying that they open their big mouths with false promises.
Um, what? they HAVE shown 16nm products working. mass production will start soon. 2016 will see pascal and arctic islands, and zen, on 16/14nm.

Even intel, with its engineering and monetary superiority, is having issues with 14nm. broadwell was delayed, and full wattage parts delayed even further. 10nm cannonlake is also delayed.
 
Joined
Jul 2, 2008
Messages
8,091 (1.35/day)
Location
Hillsboro, OR
System Name Main/DC
Processor i7-3770K/i7-2600K
Motherboard MSI Z77A-GD55/GA-P67A-UD4-B3
Cooling Phanteks PH-TC14CS/H80
Memory Crucial Ballistix Sport 16GB (2 x 8GB) LP /4GB Kingston DDR3 1600
Video Card(s) Asus GTX 660 Ti/MSI HD7770
Storage Crucial MX100 256GB/120GB Samsung 830 & Seagate 2TB(died)
Display(s) Asus 24' LED/Samsung SyncMaster B1940
Case P100/Antec P280 It's huge!
Audio Device(s) on board
Power Supply SeaSonic SS-660XP2/Seasonic SS-760XP2
Software Win 7 Home Premiun 64 Bit
Who wants to start an office poll?
 
Joined
Mar 28, 2014
Messages
586 (0.15/day)
Processor AMD FX-8320
Motherboard AsRock 970 PRO3 R2.0
Cooling Thermalright Ultra120 eXtreme + 2 LED Green fans
Memory 2 x 4096 MB DDR3-1333 A-Data
Video Card(s) SAPPHIRE 4096M R9 FURY X 4G D5
Storage ST1000VX000 • SV35.6 Series™ 1000 GB 7200 rpm
Display(s) Acer S277HK wmidpp 27" 4K (3840 x 2160) IPS
Case Cooler Master HAF 912 Plus Black + Red Lights
Audio Device(s) Onboard Realtek
Power Supply OCZ ProXStream 1000W
Mouse Genius NetScroll 100X
Keyboard Logitech Wave
Software Windows 7 Ultimate 64-bit
Um, what? they HAVE shown 16nm products working. mass production will start soon. 2016 will see pascal and arctic islands, and zen, on 16/14nm.

Early next year is not that soon. Let's assume that Pascal and Arctic Islands* will appear in 2Q 2016.
Do not expect 10 nm products even in 2017. More likely 2018-2019.
They can manufacture something small on 10nm in 2017.

*Arctic Islands can be a GloFo deal, not TSMC, this is TBC.
 
Joined
May 13, 2008
Messages
762 (0.13/day)
System Name HTPC whhaaaat?
Processor 2600k @ 4500mhz
Motherboard Asus Maximus IV gene-z gen3
Cooling Noctua NH-C14
Memory Gskill Ripjaw 2x4gb
Video Card(s) EVGA 1080 FTW @ 2037/11016
Storage 2x512GB MX100/1x Agility 3 128gb ssds, Seagate 3TB HDD
Display(s) Vizio P 65'' 4k tv
Case Lian Li pc-c50b
Audio Device(s) Denon 3311
Power Supply Corsair 620HX
Early next year is not that soon. Let's assume that Pascal and Arctic Islands* will appear in 2Q 2016.
Do not expect 10 nm products even in 2017. More likely 2018-2019.
They can manufacture something small on 10nm in 2017.

*Arctic Islands can be a GloFo deal, not TSMC, this is TBC.

Right. While it's really difficult to predict the ramps of any process (although I think it's fair to say Samsung leans toward early production if even a slow ramp, TSMC a longer-delayed process and quicker ramp) it's usually a solid 12-15 months from production/availability of mobile parts to high-performance parts...at least when it comes to companies/products outside Intel (or even not if you consider the true performance parts to be HEDT, and exponentially longer if they produced reticle-bound chips). This was true of 28nm (iirc one of the fpga companies had parts in q410, 7000/600 series launched more-or-less q112), and seems to be also true of 14/16nm (Exynos 7420 launched in the s6 on 4/9, 820 will probably be six months later). If you figure TSMC/Samsung may ship products to customers in Q117, probably meaning Qualcomm, I think it's fair to think 10nm for a larger chip will be a year or so after that...or IOW roughly two years after when we expect the first 14/16nm performance parts. Also, Volta is clearly...at least at this point....planned as a 10nm product (which is more-or-less required for 3d production) and according to nvidia, scheduled for 2018. It matches their cadences of mid-range chip as high-end consumer part the first year of a process, large chip for pros the first year (when yields are shit) and/or for consumers the second year, repeat.

2018 *may* see the start of 7nm mobile chips, essentially keeping up with Moore's Law (with or without Intel) as IBM's breakthrough may spearhead that process, but it would be insane to speculate that far out. We also don't know if Intel will play catch up at 7nm, and/or how successful TSMC will be in their migration to their 7nm. It could be a quick and successful shrink assuming they have tested some aspects at 10nm and they migrate well....It could also be a bloody disaster like 40 (and 20)nm.
 
Last edited:
Joined
Sep 7, 2011
Messages
2,785 (0.58/day)
Location
New Zealand
System Name MoneySink
Processor 2600K @ 4.8
Motherboard P8Z77-V
Cooling AC NexXxos XT45 360, RayStorm, D5T+XSPC tank, Tygon R-3603, Bitspower
Memory 16GB Crucial Ballistix DDR3-1600C8
Video Card(s) GTX 780 SLI (EVGA SC ACX + Giga GHz Ed.)
Storage Kingston HyperX SSD (128) OS, WD RE4 (1TB), RE2 (1TB), Cav. Black (2 x 500GB), Red (4TB)
Display(s) Achieva Shimian QH270-IPSMS (2560x1440) S-IPS
Case NZXT Switch 810
Audio Device(s) onboard Realtek yawn edition
Power Supply Seasonic X-1050
Software Win8.1 Pro
Benchmark Scores 3.5 litres of Pale Ale in 18 minutes.
Um, what? they HAVE shown 16nm products working. mass production will start soon..
TSMC marketing shows signs that they do not sleep. But perhaps we should put them to rest.
These guys haven't shown yet a single working mass produced 16-nm product, it's extremely annoying that they open their big mouths with false promises.
Hisilicon's PhosphorV660 32-core ARM and D02 server board - made on TSMC's 16nm - is actually available for sale directly from Hisilicon - and has been for about four months
 

AsRock

TPU addict
Joined
Jun 23, 2007
Messages
19,087 (3.00/day)
Location
UK\USA
Screw 10nm, we want 14nm for new GFX cards like yesterday.
 
Joined
Feb 8, 2012
Messages
3,014 (0.64/day)
Location
Zagreb, Croatia
System Name Windows 10 64-bit Core i7 6700
Processor Intel Core i7 6700
Motherboard Asus Z170M-PLUS
Cooling Corsair AIO
Memory 2 x 8 GB Kingston DDR4 2666
Video Card(s) Gigabyte NVIDIA GeForce GTX 1060 6GB
Storage Western Digital Caviar Blue 1 TB, Seagate Baracuda 1 TB
Display(s) Dell P2414H
Case Corsair Carbide Air 540
Audio Device(s) Realtek HD Audio
Power Supply Corsair TX v2 650W
Mouse Steelseries Sensei
Keyboard CM Storm Quickfire Pro, Cherry MX Reds
Software MS Windows 10 Pro 64-bit
Screw 10nm, we want 14nm for new GFX cards like yesterday.
I'm guessing next year Pascal will be made in TSMC at 16nm which is basically 20nm with FinFETs
 

AsRock

TPU addict
Joined
Jun 23, 2007
Messages
19,087 (3.00/day)
Location
UK\USA
Still wont have me upgrading but dam it will freshen the market up once again. And if they are going to start taking so long to shrink may as well wait for the tweaked 16\20nm
 
Joined
Oct 4, 2013
Messages
86 (0.02/day)
Query - What happens when physically its not possible any further shrink ???
much like to what happens every time there is a dead-end in every technology,
they pick something from the reaserch-stack and put it into mainstream production.
It will be expensive at first but it will become cheaper as more and more companies jump into it.
I bet that there are 10 or more alternatives to silicon out there, not to mention the silicon photonics technology.

I think that the physical limit of the silicon is less than 1 nm, which is IIRC 7 atoms wide, thus making 0.14nm a possible goal (?!).

I believe also that there is too much attention on the lithographic node of each chip. intel proved that an immature node, e.g. 28 or 22 nm is impossible to give you the benefits you expect in comparison to a mature node, e.g. 40nm.
At 40nm z196 was amazing, so even if the progress stops at 10nm or 7nm there are years upon years of r&d to take full advantage of that node.
To conclude, there are so f'ing many things to consider when making a cpu, that the lithographic node is only a fraction of what you actually should consider... but that's what makes (mostly) people consider when buying a cpu.
 
Joined
Jul 23, 2011
Messages
1,586 (0.33/day)
Location
Kaunas, Lithuania
System Name my box
Processor AMD Ryzen 9 5950X
Motherboard ASRock Taichi x470 Ultimate
Cooling NZXT Kraken x72
Memory 2×16GiB @ 3200MHz, some Corsair RGB led meme crap
Video Card(s) AMD [ASUS ROG STRIX] Radeon RX Vega64 [OC Edition]
Storage Samsung 970 Pro && 2× Seagate IronWolf Pro 4TB in Raid 1
Display(s) Asus VG278H + Asus VH226H
Case Fractal Design Define R6 Black TG
Audio Device(s) Using optical S/PDIF output lol
Power Supply Corsair AX1200i
Mouse Razer Naga Epic
Keyboard Keychron Q1
Software Funtoo Linux
Benchmark Scores 217634.24 BogoMIPS
I believe also that there is too much attention on the lithographic node of each chip. intel proved that an immature node, e.g. 28 or 22 nm is impossible to give you the benefits you expect in comparison to a mature node, e.g. 40nm.
At 40nm z196 was amazing, so even if the progress stops at 10nm or 7nm there are years upon years of r&d to take full advantage of that node.
To conclude, there are so f'ing many things to consider when making a cpu, that the lithographic node is only a fraction of what you actually should consider... but that's what makes (mostly) people consider when buying a cpu.

That is all for the benefit of the manufacturer, simply.
Smaller process == smaller die size for the same chip
smaller die size == more chips on the same wafer
more chips on the same wafer == [much] lower manufacturing costs
lower manufacturing costs == higher market margin for chips they sell
higher market margin == MONEY!!!!!!!

this applies regardless if the company owns and uses their own fabs (e.g. Intel) or is a fabless one (e.g. AMD, Nvidia)

P.S. that said, AMD should move from 28nm for their CPUs, FFS B(
 
Top