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Good point.Shareholders...
Good point.Shareholders...
System Name | Ciel / Akane |
---|---|
Processor | AMD Ryzen R5 5600X / Intel Core i3 12100F |
Motherboard | Asus Tuf Gaming B550 Plus / Biostar H610MHP |
Cooling | ID-Cooling 224-XT Basic / Stock |
Memory | 2x 16GB Kingston Fury 3600MHz / 2x 8GB Patriot 3200MHz |
Video Card(s) | Gainward Ghost RTX 3060 Ti / Dell GTX 1660 SUPER |
Storage | NVMe Kingston KC3000 2TB + NVMe Toshiba KBG40ZNT256G + HDD WD 4TB / NVMe WD Blue SN550 512GB |
Display(s) | AOC Q27G3XMN / Samsung S22F350 |
Case | Cougar MX410 Mesh-G / Generic |
Audio Device(s) | Kingston HyperX Cloud Stinger Core 7.1 Wireless PC |
Power Supply | Aerocool KCAS-500W / Gigabyte P450B |
Mouse | EVGA X15 / Logitech G203 |
Keyboard | VSG Alnilam / Dell |
Software | Windows 11 |
The continued problems for 10nm is a sad tale, since Intel is sitting on a new faster architecture they can't use (yet).
But in all the Zen(2) hype, it's easy to forget that despite all these troubles, Intel still have the fastest core performance, and is quite likely going to do well against Zen 2 for the mainstream platform. The only "hole" will be the lack of a direct competitor to AMD's expected 12-core CPU, but that shouldn't matter a lot. Coffee Lake (v2) will not be inferior when Zen 2 launches, the only sad part is that Intel will be stagnant and seemingly have nothing new in this segment this year.
I'm more curious in what lies ahead. We still don't really know much about Comet Lake-S, and as far as I can see there are three possibilities;
1) Just another iteration of Skylake with no real IPC changes, but minor tweaks in the layout to achieve better thermals and lower voltage, which is utilized for marginal clock gains. This is very much possible, but boring.
2) Some architectural tweaks (like Cascade Lake-SP) to achieve small IPC gains.
3) A "backport" of Ice Lake/Sunny Cove to 14nm.
(or a combination of these)
The only indicator I've seen so far is the support in Core Boot and Linux indicating it may be a relative of Skylake.
Why not? Why do you think 10nm is for high performance? Because AMD told you so?Its also a low performance product, so it does not justify the jump to 10nm.
Again: why not?The point was this CPU doesnt tell us much about the state of 10nm.
-U SoCs are expensive anyway. Even a mainstream i5-8250U (4C/8T) costs $297. Top of the range i7-8665U costs $409.And rest assured this CPU will be scarce and cost a pretty penny because of it. Not directly the greatest perks for a mainstream product...
Advanced lithography is now driven by performance jump rather than economical reasons as per-transistor cost (not per die size cost) is now going up starting from 14nm.Why not? Why do you think 10nm is for high performance? Because AMD told you so?
Again: why not?
It tells us 10nm is good enough for one of the most important CPU lines Intel makes. The next step (and final confirmation that all is well) will be when (if) Intel puts it in Xeon Platinum.
From what Intel presented recently, they don't have a new faster architecture. The so-called Sunny Cove is just a tweaked Skylake with minor updates to architecture. The IPC gain is likely less than 10%.The continued problems for 10nm is a sad tale, since Intel is sitting on a new faster architecture they can't use (yet).
But in all the Zen(2) hype, it's easy to forget that despite all these troubles, Intel still have the fastest core performance, and is quite likely going to do well against Zen 2 for the mainstream platform. The only "hole" will be the lack of a direct competitor to AMD's expected 12-core CPU, but that shouldn't matter a lot. Coffee Lake (v2) will not be inferior when Zen 2 launches, the only sad part is that Intel will be stagnant and seemingly have nothing new in this segment this year.
I'm more curious in what lies ahead. We still don't really know much about Comet Lake-S, and as far as I can see there are three possibilities;
1) Just another iteration of Skylake with no real IPC changes, but minor tweaks in the layout to achieve better thermals and lower voltage, which is utilized for marginal clock gains. This is very much possible, but boring.
2) Some architectural tweaks (like Cascade Lake-SP) to achieve small IPC gains.
3) A "backport" of Ice Lake/Sunny Cove to 14nm.
(or a combination of these)
The only indicator I've seen so far is the support in Core Boot and Linux indicating it may be a relative of Skylake.
At this point I don't even care about Intel anymore, because with SO friggin many architectures/designs/CPU names/whatever I don't even know what is what and I wouldn't be able to choose anything even if I wanted to.
Screw it, anything AMD will be a great upgrade from 3770K.
Except you must've missed the many high performance chips where HBM not only crushes anything GDDRxx but also killed HMC, Intel's answer to HBM. As of this moment Intel, Google, Nvidia, AMD, Xilinx & a few other major players employ HBM for various solutions ranging from GPU, FPGA to dedicated AI accelerators. Now the price & availability is a different topic but so far as crushing (the competition) is concerned, it's HBM that's doing it not the other way around.Ok most of here are nerds or geeks so we read about this 'nerd [porn" stuff ... But really no need to pay attention other than if you into "the science" .... If I wanna race cars, I don't care how many cylinders or how many cu.in. If Motor A goes faster than Motor B, all other important things (reliability, fuel conservation, etc) being relatively equal, my only concern need be "what one has the best chance of me crossing the line first" ? Look at what you do application wise and simply the one that completes those tasks faster. In the end, nothing else really matters.
AMD said HBM was gonna change everything how many years ago ? .... and here we are in 2019 and it's and GDDR is still crushing it ... it's been a non-ffactor. Why care if a CPU has 12, 18, 24, 32 cores, if the competition's 6 core completes what ya wanna do faster, it don't matter. Why care if it's 7, 10, 12 nm, if the competition's unlucky 13 nm CPU completes what ya wanna do faster, it don't matter. Focusing on the technology before it's advantages have actually been demonstarted is fun perhaps, but little else.
Processor | AMD Ryzen 9 5900X ||| Intel Core i7-3930K |
---|---|
Motherboard | ASUS ProArt B550-CREATOR ||| Asus P9X79 WS |
Cooling | Noctua NH-U14S ||| Be Quiet Pure Rock |
Memory | Crucial 2 x 16 GB 3200 MHz ||| Corsair 8 x 8 GB 1333 MHz |
Video Card(s) | MSI GTX 1060 3GB ||| MSI GTX 680 4GB |
Storage | Samsung 970 PRO 512 GB + 1 TB ||| Intel 545s 512 GB + 256 GB |
Display(s) | Asus ROG Swift PG278QR 27" ||| Eizo EV2416W 24" |
Case | Fractal Design Define 7 XL x 2 |
Audio Device(s) | Cambridge Audio DacMagic Plus |
Power Supply | Seasonic Focus PX-850 x 2 |
Mouse | Razer Abyssus |
Keyboard | CM Storm QuickFire XT |
Software | Ubuntu |
Cost is absolutely a consideration. And yields are much more complex than just how many chips are working or not. And even with generally low yields there are probably a few good chips capable of decent clocks. So if they chose to make Ice Lake-S, it would probably result in very few salable chips since most of these need relatively high clocks, but if used for Ice Lake-SP, most of which will operate at lower clocks, they can actually manage to produce a decent number of chips, and get good benefits from the new expensive node.Advanced lithography is now driven by performance jump rather than economical reasons as per-transistor cost (not per die size cost) is now going up starting from 14nm.
That's where you're very wrong.From what Intel presented recently, they don't have a new faster architecture. The so-called Sunny Cove is just a tweaked Skylake with minor updates to architecture. The IPC gain is likely less than 10%.
AMD recently stated that they expect clock speeds to decrease over the next years. We are probably at or near the peak of clock speed on the current type of semiconductor materials, so don't expect to see much in the 5-6-7 GHz range. Both Coffee Lake and Zen+ are pushing their respective chips into throttle territory, and it should be obvious that there are not huge gains to be expected in the future. I'm more interested in achieving good base clocks across many cores rather than max boost.Unless Intel can magically clock their 10nm parts to 5.5GHz (very unlikely), I don't think their lead on single-thread performance is large enough to warrant the disadvantages on thermals and multi-core performance.
System Name | Tiny the White Yeti |
---|---|
Processor | 7800X3D |
Motherboard | MSI MAG Mortar b650m wifi |
Cooling | CPU: Thermalright Peerless Assassin / Case: Phanteks T30-120 x3 |
Memory | 32GB Corsair Vengeance 30CL6000 |
Video Card(s) | ASRock RX7900XT Phantom Gaming |
Storage | Lexar NM790 4TB + Samsung 850 EVO 1TB + Samsung 980 1TB + Crucial BX100 250GB |
Display(s) | Gigabyte G34QWC (3440x1440) |
Case | Lian Li A3 mATX White |
Audio Device(s) | Harman Kardon AVR137 + 2.1 |
Power Supply | EVGA Supernova G2 750W |
Mouse | Steelseries Aerox 5 |
Keyboard | Lenovo Thinkpad Trackpoint II |
VR HMD | HD 420 - Green Edition ;) |
Software | W11 IoT Enterprise LTSC |
Benchmark Scores | Over 9000 |
Advanced lithography is now driven by performance jump rather than economical reasons as per-transistor cost (not per die size cost) is now going up starting from 14nm.
If you cannot deliver higher performance, you are just better to stay on 14nm. That's why Intel's 10nm is a failure judging from present data (lower frequency, worse thermals).
That's why Globalfoundries just abandoned the plans to upgrade to 7nm. No one will ask GF to manufacturer chips if GF could not bring up a competitive node.
From what Intel presented recently, they don't have a new faster architecture. The so-called Sunny Cove is just a tweaked Skylake with minor updates to architecture. The IPC gain is likely less than 10%.
Unless Intel can magically clock their 10nm parts to 5.5GHz (very unlikely), I don't think their lead on single-thread performance is large enough to warrant the disadvantages on thermals and multi-core performance.
That's where you're very wrong.
Sunny Cove is the largest overhaul in many years, and is larger in scope than both Skylake and Haswell. Performance gains remains to be seen, but it does change/improve almost everything across the design, including major overhauls of cache (capacity and bandwidth), more than doubling of int mul/div performance, improved memory address calculation, doubling of load/store bandwidth and more.
Processor | AMD Ryzen 9 5900X ||| Intel Core i7-3930K |
---|---|
Motherboard | ASUS ProArt B550-CREATOR ||| Asus P9X79 WS |
Cooling | Noctua NH-U14S ||| Be Quiet Pure Rock |
Memory | Crucial 2 x 16 GB 3200 MHz ||| Corsair 8 x 8 GB 1333 MHz |
Video Card(s) | MSI GTX 1060 3GB ||| MSI GTX 680 4GB |
Storage | Samsung 970 PRO 512 GB + 1 TB ||| Intel 545s 512 GB + 256 GB |
Display(s) | Asus ROG Swift PG278QR 27" ||| Eizo EV2416W 24" |
Case | Fractal Design Define 7 XL x 2 |
Audio Device(s) | Cambridge Audio DacMagic Plus |
Power Supply | Seasonic Focus PX-850 x 2 |
Mouse | Razer Abyssus |
Keyboard | CM Storm QuickFire XT |
Software | Ubuntu |
Well, they are, it's called Ice Lake-SP. (unless they change their mind)The fact remains that Intel is not pushing a higher performance product first to 'show off' 10nm, which is telling.
With a hypothetical 5% IPC gain across the board, they could easily cut 200 MHz max boost and still have higher performance, just as an example.It means they haven't got a real message for high performance to deliver. If they can only gain IPC and perf/watt by cutting back on clocks and the end result is a slower CPU
Yeah, but like I said, the struggle with 10 nm is not a sign of laziness.You could define lazy as being content with providing just quad cores for well over a decade or in fact overcharging for HEDT.
That's where you're very wrong.
Sunny Cove is the largest overhaul in many years, and is larger in scope than both Skylake and Haswell. Performance gains remains to be seen, but it does change/improve almost everything across the design, including major overhauls of cache (capacity and bandwidth), more than doubling of int mul/div performance, improved memory address calculation, doubling of load/store bandwidth and more.
Processor | AMD Ryzen 9 5900X ||| Intel Core i7-3930K |
---|---|
Motherboard | ASUS ProArt B550-CREATOR ||| Asus P9X79 WS |
Cooling | Noctua NH-U14S ||| Be Quiet Pure Rock |
Memory | Crucial 2 x 16 GB 3200 MHz ||| Corsair 8 x 8 GB 1333 MHz |
Video Card(s) | MSI GTX 1060 3GB ||| MSI GTX 680 4GB |
Storage | Samsung 970 PRO 512 GB + 1 TB ||| Intel 545s 512 GB + 256 GB |
Display(s) | Asus ROG Swift PG278QR 27" ||| Eizo EV2416W 24" |
Case | Fractal Design Define 7 XL x 2 |
Audio Device(s) | Cambridge Audio DacMagic Plus |
Power Supply | Seasonic Focus PX-850 x 2 |
Mouse | Razer Abyssus |
Keyboard | CM Storm QuickFire XT |
Software | Ubuntu |
I don't know what you mean by this?Haswell improvements
Exists: 1, 5, 6 (from 6 to 8), 8, double cache bandwidth, double load / store bandwidth
Skylake improvements
Exists: 1
Is Haswell much better than IvyBridge? I don't think so.
Is Sunny Cove introducing more improvements than Haswell? I don't think so too.
Doubling the number of MUL units = double integer mul/div resource =/= double integer mul/div performance =/= double integer performanceI don't know what you mean by this?
The improvements I talked of was of Sunny Cove vs. Skylake.
Here is another image to compare with Skylake:
https://images.anandtech.com/doci/13405/Ronak20_575px.jpg
As you can see, it replaces one Mul unit with two Mul units and a dedicated Div unit which will more than double integer mul/div performance.
Sunny Cove expands/extends pretty much every aspect except int ALUs (which they increased to 4 in Haswell), and vector units is only marginally improved over Skylake-X/SP, but significantly improved over Skylake-S of course.
System Name | :) |
---|---|
Processor | Intel 13700k |
Motherboard | Gigabyte z790 UD AC |
Cooling | Noctua NH-D15 |
Memory | 64GB GSKILL DDR5 |
Video Card(s) | Gigabyte RTX 4090 Gaming OC |
Storage | 960GB Optane 905P U.2 SSD + 4TB PCIe4 U.2 SSD |
Display(s) | Alienware AW3423DW 175Hz QD-OLED + AOC Agon Pro AG276QZD2 240Hz QD-OLED |
Case | Fractal Design Torrent |
Audio Device(s) | MOTU M4 - JBL 305P MKII w/2x JL Audio 10 Sealed --- X-Fi Titanium HD - Presonus Eris E5 - JBL 4412 |
Power Supply | Silverstone 1000W |
Mouse | Roccat Kain 122 AIMO |
Keyboard | KBD67 Lite / Mammoth75 |
VR HMD | Reverb G2 V2 |
Software | Win 11 Pro |
ThisOk most of here are nerds or geeks so we read about this 'nerd [porn" stuff ... But really no need to pay attention other than if you into "the science" .... If I wanna race cars, I don't care how many cylinders or how many cu.in. If Motor A goes faster than Motor B, all other important things (reliability, fuel conservation, etc) being relatively equal, my only concern need be "what one has the best chance of me crossing the line first" ? Look at what you do application wise and simply the one that completes those tasks faster. In the end, nothing else really matters.
AMD said HBM was gonna change everything how many years ago ? .... and here we are in 2019 and it's and GDDR is still crushing it ... it's been a non-ffactor. Why care if a CPU has 12, 18, 24, 32 cores, if the competition's 6 core completes what ya wanna do faster, it don't matter. Why care if it's 7, 10, 12 nm, if the competition's unlucky 13 nm CPU completes what ya wanna do faster, it don't matter. Focusing on the technology before it's advantages have actually been demonstarted is fun perhaps, but little else.
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 5800X Optane 800GB 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 |
One Intel
Processor | Ryzen 7800X3D |
---|---|
Motherboard | ROG STRIX B650E-F GAMING WIFI |
Memory | 2x16GB G.Skill Flare X5 DDR5-6000 CL36 (F5-6000J3636F16GX2-FX5) |
Video Card(s) | INNO3D GeForce RTX™ 4070 Ti SUPER TWIN X2 |
Storage | 2TB Samsung 980 PRO, 4TB WD Black SN850X |
Display(s) | 42" LG C2 OLED, 27" ASUS PG279Q |
Case | Thermaltake Core P5 |
Power Supply | Fractal Design Ion+ Platinum 760W |
Mouse | Corsair Dark Core RGB Pro SE |
Keyboard | Corsair K100 RGB |
VR HMD | HTC Vive Cosmos |
This is a fairly likely scenario for Intel's early 10nm. Not cutting back clocks but the process simply not clocking as far compared to 14nm++.The fact remains that Intel is not pushing a higher performance product first to 'show off' 10nm, which is telling. It means they haven't got a real message for high performance to deliver. If they can only gain IPC and perf/watt by cutting back on clocks and the end result is a slower CPU, Sunny Cove might very well be a faster architecture, but the end result is still not satisfactory.
Processor | AMD Ryzen 9 5900X ||| Intel Core i7-3930K |
---|---|
Motherboard | ASUS ProArt B550-CREATOR ||| Asus P9X79 WS |
Cooling | Noctua NH-U14S ||| Be Quiet Pure Rock |
Memory | Crucial 2 x 16 GB 3200 MHz ||| Corsair 8 x 8 GB 1333 MHz |
Video Card(s) | MSI GTX 1060 3GB ||| MSI GTX 680 4GB |
Storage | Samsung 970 PRO 512 GB + 1 TB ||| Intel 545s 512 GB + 256 GB |
Display(s) | Asus ROG Swift PG278QR 27" ||| Eizo EV2416W 24" |
Case | Fractal Design Define 7 XL x 2 |
Audio Device(s) | Cambridge Audio DacMagic Plus |
Power Supply | Seasonic Focus PX-850 x 2 |
Mouse | Razer Abyssus |
Keyboard | CM Storm QuickFire XT |
Software | Ubuntu |
These roadmaps, if genuine, are internal ones for Dell, which probably explains why it shows Coffee Lake-S Refresh starting in the middle of Q1 2019, even though some of the models launched earlier than that. One of the puzzling things in the roadmap is the Comet Lake Xeon-E launching Q1 2020 while Comet Lake-S (consumer) launching Q2 2020. Even if this is accurate, it doesn't preclude Comet Lake-S models that Dell doesn't use from launching ahead of that.
System Name | Tiny the White Yeti |
---|---|
Processor | 7800X3D |
Motherboard | MSI MAG Mortar b650m wifi |
Cooling | CPU: Thermalright Peerless Assassin / Case: Phanteks T30-120 x3 |
Memory | 32GB Corsair Vengeance 30CL6000 |
Video Card(s) | ASRock RX7900XT Phantom Gaming |
Storage | Lexar NM790 4TB + Samsung 850 EVO 1TB + Samsung 980 1TB + Crucial BX100 250GB |
Display(s) | Gigabyte G34QWC (3440x1440) |
Case | Lian Li A3 mATX White |
Audio Device(s) | Harman Kardon AVR137 + 2.1 |
Power Supply | EVGA Supernova G2 750W |
Mouse | Steelseries Aerox 5 |
Keyboard | Lenovo Thinkpad Trackpoint II |
VR HMD | HD 420 - Green Edition ;) |
Software | W11 IoT Enterprise LTSC |
Benchmark Scores | Over 9000 |
These roadmaps, if genuine, are internal ones for Dell, which probably explains why it shows Coffee Lake-S Refresh starting in the middle of Q1 2019, even though some of the models launched earlier than that. One of the puzzling things in the roadmap is the Comet Lake Xeon-E launching Q1 2020 while Comet Lake-S (consumer) launching Q2 2020. Even if this is accurate, it doesn't preclude Comet Lake-S models that Dell doesn't use from launching ahead of that.
There are also at few other typos or misplacements in here, so I wold take some of these details with a grain of salt.
Processor | Ryzen 7800X3D |
---|---|
Motherboard | ROG STRIX B650E-F GAMING WIFI |
Memory | 2x16GB G.Skill Flare X5 DDR5-6000 CL36 (F5-6000J3636F16GX2-FX5) |
Video Card(s) | INNO3D GeForce RTX™ 4070 Ti SUPER TWIN X2 |
Storage | 2TB Samsung 980 PRO, 4TB WD Black SN850X |
Display(s) | 42" LG C2 OLED, 27" ASUS PG279Q |
Case | Thermaltake Core P5 |
Power Supply | Fractal Design Ion+ Platinum 760W |
Mouse | Corsair Dark Core RGB Pro SE |
Keyboard | Corsair K100 RGB |
VR HMD | HTC Vive Cosmos |
Intel would not release something in any considerable volume if it did not make sense. Their primary motivation right now is to keep as much mobile market as they possibly can. Mobile CPUs are not limited by performance but by power - if they can get the 10nm to be efficient (which they should be able to, eventually) the clear intent is to shove off AMD from mobile. Intel rules mobile market today and mobile really has enormous inertia - AMD is struggling to get APUs in big manufacturers' laptops, the replacement cycle is longer and Intel still has upper hand there technically as well.Still though, this does tell us we won't be swimming in 10nm chips anytime soon, especially not for desktop, and for mobile we're talking about sub-top performing chips. Bottom line, for Intel's Core we're really going to be looking at that 14nm performance plateau for quite a while. AMD's got quite a good position for at least that long.
System Name | Tiny the White Yeti |
---|---|
Processor | 7800X3D |
Motherboard | MSI MAG Mortar b650m wifi |
Cooling | CPU: Thermalright Peerless Assassin / Case: Phanteks T30-120 x3 |
Memory | 32GB Corsair Vengeance 30CL6000 |
Video Card(s) | ASRock RX7900XT Phantom Gaming |
Storage | Lexar NM790 4TB + Samsung 850 EVO 1TB + Samsung 980 1TB + Crucial BX100 250GB |
Display(s) | Gigabyte G34QWC (3440x1440) |
Case | Lian Li A3 mATX White |
Audio Device(s) | Harman Kardon AVR137 + 2.1 |
Power Supply | EVGA Supernova G2 750W |
Mouse | Steelseries Aerox 5 |
Keyboard | Lenovo Thinkpad Trackpoint II |
VR HMD | HD 420 - Green Edition ;) |
Software | W11 IoT Enterprise LTSC |
Benchmark Scores | Over 9000 |
Intel would not release something in any considerable volume if it did not make sense. Their primary motivation right now is to keep as much mobile market as they possibly can. Mobile CPUs are not limited by performance but by power - if they can get the 10nm to be efficient (which they should be able to, eventually) the clear intent is to shove off AMD from mobile. Intel rules mobile market today and mobile really has enormous inertia - AMD is struggling to get APUs in big manufacturers' laptops, the replacement cycle is longer and Intel still has upper hand there technically as well.
I suppose they are just giving up on straight wins on desktop. They are basically following the same strategy AMD has in number of occasions - screw the efficiency as long as performance is there. Whether this will work in this day and age remains to be seen.