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In today's call for results, AMD has confirmed that they will launch their new 7nm network-based EPYC Rome processors in the third quarter of 2019. The company has also confirmed the launch of its Radeon Navi GPUs in the third quarter of 2019. You can get more details about this here.
7nm Zen 2 arrives on the AMD Ryzen 3000 processors First, the EPYC Rome processors arrive in the third quarter of 2019
The confirmation is very interesting since it shows when AMD plans to launch its product lines based on the Zen 2 7nm architecture. By 2019, three main products would use Zen 2 architecture, namely:
- AMD Ryzen 3000 Series (Mainstream)
- Threadripper 3000 series from AMD Ryzen (HEDT)
- AMD EPYC Rome Series (Server)
Below is the official statement by Lisa Su, Executive Director, at the call for results:
For our next-generation Rome processor, we made excellent progress during the quarter and made key milestones in production with our largest OEM and Cloud customers.
We are very excited about the performance of Rome, which is on track to provide four times the performance of floating point and twice the performance of computing per socket compared to our processors EPYC of the current generation. We are on track to start production shipments in Rome in the second quarter to support the launch of the third quarter. – Lisa Su, CEO of AMD
For some time now, we have been expecting the simultaneous launch of the Ryzen 3000 series processors and EPYC Rome, but this is not the case. In fact, AMD would now offer its next generation Zen 2 processors to the first AM4 platform. Starting with its Ryzen 3000 processors, AMD will be at Intel at a time when blue team processors are facing severe shortages due to 14-nm supply constraints. The shortages are expected to last until the third quarter of 2019, leaving AMD plenty of time to capture a significant market share.
AMD processor roadmap (2018-2020)
Ryzen Family | Ryzen 1000 Series | Ryzen 2000 Series | Ryzen 3000 Series | Ryzen 4000 Series |
---|---|---|---|---|
Architecture | Zen (1) | Zen (1) / Zen + | Zen (2) | Zen (3) |
Process Node | 14nm | 14nm / 12nm | 7 nm | 7nm + |
Premium server (SP3) | EPYC & # 39; Naples & # 39; | EPYC & # 39; Naples & # 39; | EPYC & # 39; Rome & # 39; | EPYC & # 39; Milan & # 39; |
Maximum number of cores / server threads | 32/64 | 32/64 | 64/128 | To be determined |
Premium Office (TR4) | Ryzen Threadripper 1000 Series | Ryzen Threadripper 2000 Series | Ryzen Threadripper 3000 Series (Castle Peak) | Ryzen Threadripper 4000 Series |
Max HEDT Cores / Wires | 16/32 | 32/64 | 64/128? | To be determined |
Mainstream Desktop (AM4) | Ryzen 1000 Series (Summit Ridge) | Ryzen 2000 Series (Pinnacle Ridge) | Ryzen 3000 Series (Matisse) | Ryzen 4000 Series (Vermeer) |
Maximum number of hearts and threads | 8/16 | 8/16 | 16/32 | To be determined |
Budgetary APU (AM4) | N / A | Ryzen 2000 Series (Raven Ridge) | Ryzen series 3000 (Picasso 14nm Zen +) | Ryzen 4000 Series (Renior) |
Year | 2017 | 2018 | 2019 | 2020 |
Here's what to expect from AMD Ryzen 3000 series processors
The AMD Ryzen 3000 series is based on the new Zen 2 main architecture, made possible by TSMC's 7 nm process node. AMD reaffirmed that its Zen 2-based Ryzen 3000 series processors for the AM4 desktop platform would be available in mid-2019. We are now hearing many reports about a possible launch in early July, which could be the case on launch day. concerned for new desktop processors.
AMD has made significant changes to their processor architecture, doubling the throughput of their first-generation Zen architecture. Key points include a completely redesigned execution pipeline, major floating point advances that doubled 256-bit floating point registers, and dual bandwidth for load / storage units. One of the key improvements for Zen 2 is the doubling of the base density, which means that we are now looking at twice the number of cores for each major complex (CCX).
- Improved Pipeline
- Floating point doubled (256 bits) and load / storage (doubled bandwidth)
- Base density doubled
- Half of the energy per operation
- Improved branch forecast
- Best Pre-recovery instruction
- Reoptimized instruction cache
- Operation Cache larger
- Increased Bandwidth Dispatch / Retire
- Maintain high throughput for all modes
Zen 2 also includes more significant hardware enhancements for security. This further strengthens AMD processors against improved Spectrum variants and these remedies will be fully adopted from Zen 2. Based on Zen technology, AMD already had significant software-level support in place. security and had further improved it through low-level software solutions. .
The AMD X570 Chipset – A New Home for Next-Generation AMD Processors, Ryzen 3000
As we saw with X470, there were some features for the Ryzen 2000 series processors that were supported only by new motherboards such as Precision Boost Overdrive and XFR 2.0. There is no doubt that the AMD Zen 2 based Ryzen consumer processor family would come with new features, but the main highlight would be PCIe Gen4 support. The X570 platform would be a fully PCIe Gen4 solution, which means it would most likely be the first mainstream platform to support the new PCIe standard.
This does not mean, however, that the AMD Ryzen 3000 series will only be compatible on X570 cards because, just like last time, the new processors will also be compatible with X470 and X370 cards. They will not display the same features as the newly launched X570 series, but will provide completely stable functionality for users who simply want to install a new processor and continue to use their PC without having to upgrade the motherboard. everything from scratch.
Here's what to expect from AMD Ryzen 3000 Threadripper Series processors
The AMD Ryzen Threadripper 3000 family will debut in the second half of 2019. This family will be known internally as "Castle Peak" and is expected to provide leadership leadership in the HEDT market. The family will prove to be a new watermark in terms of performance and overall efficiency, while new platform features will be introduced on the TR4 motherboard to bring them to the next level. We will also discuss PCIe Gen 4.0 support on these motherboards, which is already confirmed for X570 chipset-based AM4 motherboards for Ryzen 3000 series processors.
Considering that AMD would like to remain in a dominant position with the Threadripper 3000 series, we will be looking at dramatic amounts of multithreaded performance that could only be improved with additional clock speeds, thanks to the process node at 7 nm. Processors will also experience major difficulties, but AMD would like prices to remain close to current levels.
If we look at the trend with the AMD jump from Ryzen Threadripper 1000 to Ryzen Threadripper 2000, we found that new processors with a base parity of the previous generation were sold at a similar price, with a reduced price of 200 to $ 300 compared to their previous price. The 1950X has become 2950X and costs US $ 200 less. The highest number of base parts was entirely at a different market level, costing the North at US $ 1,200 but, at the same time, much cheaper than their Core-X competitors.
In terms of raw performance, the new chip configuration has not yet been tested, but since it is thinner than the previous two generations and is more interconnected, the performance of the cache and latency can give a boost to the total responsiveness of the system.
AMD EPYC Server Processors Rome – Here's What to Expect
With regard to Rome EPYC processors, AMD has confirmed its intention to launch the third quarter of 2019, which should be a few months away from the Ryzen and Ryzen Threadripper processors. The AMD EPYC Rome family of processors is expected to increase AMD's processor market share to 10% by 2020, which is good considering Intel's former CEO, Brian Krzanich, who said 'he did not want AMD to hold 15% of the market, but the demand and the adoption of EPYC processors on the main server platforms, 15% should not be too far away from now.
For the sake of the numbers, Dell EMC announced that it would triple its AMD server offering by adopting more EPYC processors.
"On about 50 platforms we have today," he said, "three of them are AMD – we will probably triple that figure by the end of the year."
He also confirmed that Dell EMC would launch servers based on AMD's latest architecture – a 7-nm architecture called "Rome" – in the second half of 2019.
– Dominique Vanhamme (Vice President and General Manager of Storage and Computing at DELL EMEA)
via IT Pro
Based on this strong growth and adoption rate, we can expect AMD to be a blow to Intel's Xeon efforts and their server-side activities. We should expect up to 64 cores and 128 threads as well as impressive PCIe Gen 4 connectivity with up to 162 channels, as summarized here.
It should also be noted that when AMD designed its Zen 2 2-core EPYC Rome processors, they internally estimated the performance of the next-generation Intel server part. The next generation of 10 nm, Ice Lake-SP, is scheduled for 2020. Cascade Lake-SP and Cooper Lake-SP will be proposed as an intermediate solution at 14 nm (++), while Cascade Lake-AP and Cooper Lake -AP would be designed as a multi-core HPC part.
"Rome was designed to compete favorably with Xeons 'Ice Lake', but it will not compete with that chip. We are incredibly enthusiastic and everything comes together at some point. – Forrest Norrod.
"Our plan for the Naples-Rome-Milan roadmap was based on assumptions based on Intel's roadmap and our estimate of what we would do if we were Intel," Norrod continues.
"We have deeply reflected on their identity, their culture and their likely reactions. We planned our efforts based on a very aggressive Intel roadmap. we thought that Intel could do. And then we discover that they can not do what we thought we could do. And then, we have an incredible opportunity
via TheNextPlatform
AMD has confirmed that its EPYC Rome processors were designed to compete with Intel Ice Lake-SP components. It only means that AMD would have an even greater advantage over the Intel 14nm ++ server components that will arrive this year.
One of the main advantages of the EPYC Rome processors on Intel components is that they will be socket compatible with EPYC Naples so that all vendors that use Naples get immediate compatibility for the AMD EPYC Rome processors. next-gen 7nm on day one.
AMD seems to be really well positioned with its EPYC server processors, even more than its desktop and mobility portfolios. If all goes well for AMD and its long-term Zen roadmap in the coming years, we can see them again dominating all sectors of the processor market.
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