User:AP 499D25/sandbox

Navigation to other userspace sandboxes:
 * Demonstration of different table layouts for computer CPU list tables (sandbox 2)
 * List of Intel Core i3/i5/i7/i9 processors table layouts rework (sandbox 3)
 * List of Intel Core and Core Ultra 3/5/7/9 processors tables (sandbox 4)
 * Socket SP6 userspace draft

To-do list:
 * List of Intel Core processors:
 * Start split request on List of Intel Core, into new articles "List of Core i3/i5/i7/i9" and "List of Core 3/5/7 and Core Ultra 5/7/9" (after completing tables rework)
 * Perform split if support or no opposition in one week
 * Disable sortability for core count, clock speed, iGPU model and clock, cache size, max. turbo TDP and price. (done)
 * Add nowrap to tables class to prevent text flow breaking when viewing on narrow width window (done)
 * May need to change header "Clock rate (GHz)" to "Clock (GHz)" to suit (not done)
 * Reorder common features list (done)
 * Add some secondary source references (or refs to non-intel databases)
 * List of AMD Ryzen processors:
 * Disable sortability for core count, clock speed, cache size, core config, chiplets, iGPU model, clock, config, processing power, thermal solution and price.
 * Add nowrap to tables class to prevent text flow breaking when viewing on narrow width window
 * Reorder common features list
 * Add some secondary source references (or refs to non-AMD databases)
 * Resolve inclusion of pricing dispute on List of AMD Ryzen processors (start RfC, or ask for input on Wikiproject Computing talk page)
 * Rewrite paragraphs on Ryzen, add mentions of reviews
 * Maybe create new separate product listing tables for CDNA 2 and CDNA 3 GPGPUs
 * On Intel Core article, implement some form of summary style like on Ryzen
 * Create centralised template documentation for computer hardware list table templates
 * Maybe "templatise" intel CPU and nvidia GPU list tables too
 * Maybe request an editnotice on articles like List of Ryzen, to help out newcomers who don't know how to edit the tables that are in templates

= Stuff 1 =

New Zealand (Māori: Aotearoa [aɔˈtɛaɾɔa]) is an island country in the southwestern Pacific Ocean. It consists of two main landmasses—the North Island (Te Ika-a-Māui) and the South Island (Te Waipounamu)—and over 700 smaller islands. It is the sixth-largest island country by area and lies east of Australia across the Tasman Sea and south of the islands of New Caledonia, Fiji, and Tonga. The country's varied topography and sharp mountain peaks, including the Southern Alps, owe much to tectonic uplift and volcanic eruptions. New Zealand's capital city is Wellington, and its most populous city is Auckland.

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= Stuff 2 =

Summit Ridge

 * Socket AM4 for Ryzen and Socket TR4 for Ryzen Threadripper.
 * Based on first generation Zen. Ryzen CPUs based on Summit Ridge architecture. Threadripper based on Whitehaven architecture.
 * 4.8 billion transistors per 192 mm2 8-core "Zeppelin" die with one die being used for Ryzen and two for Ryzen Threadripper.
 * Stepping: B1
 * Memory support:
 * Ryzen dual-channel: DDR4–2666 ×2 single rank, DDR4–2400 ×2 dual rank, DDR4–2133 ×4 single rank, or DDR4–1866 ×4 dual rank.
 * Ryzen Threadripper quad-channel: DDR4–2666 ×4 single rank, DDR4–2400 ×4 dual rank, DDR4–2133 ×8 single rank, or DDR4–1866 ×8 dual rank.
 * Instructions Sets: x87, MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AES, CLMUL, AVX, AVX2, FMA3, CVT16/F16C, ABM, BMI1, BMI2, SHA.
 * All Ryzen-branded CPUs (except Pro variants) feature unlocked multipliers.
 * AMD's SenseMI Technology monitors the processor continuously and uses Infinity Control Fabric to offer the following features:
 * Pure Power reduces the entire ramp of processor voltage and clock speed, for light loads.
 * Precision Boost increases the processor voltage and clock speed by 100–200 MHz if three or more cores are active (five or more, in the case of Threadripper, and by 300 MHz); and significantly further when less than three are active (less than five, in the case of Threadripper).
 * XFR (eXtended Frequency Range) aims to maintain the average clock speed closer to the maximum Precision Boost, when sufficient cooling is available.
 * Neural Net Prediction and Smart Prefetch use perceptron based neural branch prediction inside the processor to optimize instruction workflow and cache management.
 * Ryzen launched in conjunction with a line of stock coolers for Socket AM4: the Wraith Stealth, Wraith Spire and Wraith Max. This line succeeds the original AMD Wraith cooler, which was released in mid-2016. The Wraith Stealth is a bundled low-profile unit meant for the lower-end CPUs with a rating for a TDP of 65 W, whereas the Wraith Spire is the bundled mainstream cooler with a TDP rating of 95 W, along with optional RGB lighting on certain models. The Wraith Max is a larger cooler incorporating heatpipes, rated at 140 W TDP.
 * In December 2019, AMD started producing first generation Ryzen products built using the second generation Zen+ architecture. An example is the Ryzen 5 1600, with new batches having an "AF" identifier instead of its usual "AE", essentially being an underbinned Ryzen 5 2600 with the same specifications as the original Ryzen 5 1600.

Pinnacle Ridge

 * 4–8 cores
 * 12 nm FinFET
 * L1 cache: 32 KB + 64 KB (data + instructions) per core
 * L2 cache: 512 KB per core
 * L3 cache: Up to 8 MB shared in each CCX for a maximum total of 16 MB.
 * Memory controller: dual channel DDR4-2933
 * Instructions Sets: x87, MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AES, CLMUL, AVX, AVX2, FMA3, CVT16/F16C, ABM, BMI1, BMI2, SHA.
 * Turbo Core (need update)
 * Socket AM4
 * Die size: 346 mm² (need update)
 * Power consumption (TDP): 65 and 105 watt
 * First release
 * April 2018
 * Clock rate: 2.8 to 3.7 GHz, up to 4.3 GHz with Turbo Core
 * Models: Ryzen 2000 series

Desktop
The desktop Ryzen 3000 series (codenamed Matisse), along with the 3000G series (codenamed Picasso) were launched in July 2019. The Matisse desktop processors feature Zen 2 architecture, packaged in a chiplet design with separate I/O Die and CCD. The CCDs are fabricated on 7 nm, can contain up to eight cores each, and the package can feature up to two CCDs for a maximum core count of 16. The Picasso desktop processors (dubbed Ryzen 3000 with Radeon Graphics) are based on Zen+, manufactured on 12 nm and feature Radeon Vega graphics with up to 11 CUs (Compute Units) at a maximum clock speed of 1.4 GHz.

HEDT / Workstation
The Ryzen Threadripper 3000 line of high-end desktop (HEDT) processors were launched in November 2019, featuring up to 32 cores, with a 64-core model coming later in February 2020. It utilizes the new socket sTRX4 platform, replacing the TR4 platform used by Threadripper 1000 and 2000, and is not compatible with TR4 motherboards, nor can TR4 CPUs be used on the sTRX4 platform. Just like the TR4 platform, sTRX4 provides up to 64 PCIe lanes (although at 4.0 speeds instead of 3.0), and quad-channel DDR4 memory support.

In July 2020, AMD released the Ryzen Threadripper PRO 3000 series of workstation processors, along with a new socket sWRX8 platform which it utilizes. There are models with core counts ranging from 12 up to 64. Compared to the Threadripper 3000 platform, sWRX8 provides up to 128 PCIe 4.0 lanes, and octa-channel DDR4 memory support.

Mobile
The mobile Ryzen 3000 series launched in January 2019 and most of the models are based on Picasso. This generation features up to four cores and eight threads, and eleven Vega GPU compute units, just like the previous Ryzen 2000 mobile generation, however it is based on Zen+ architecture instead of Zen, and also runs at higher clock speeds. Some of the models, noted in the table below, are based on Dali or Raven Ridge, which use the Zen 1st gen architecture.

Desktop
The desktop Ryzen 7000 series, codenamed Raphael, launched in September 2022. Based on the Zen 4 architecture, it utilizes the new Socket AM5 platform, featuring dual-channel DDR5 memory and PCIe 5.0 support, which replaces the AM4 platform.

= Stuff 3 =

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