Broadwell (microarchitecture)
CPUID code | 0306D4h |
---|---|
Product code |
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Cores |
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L1 cache | 64 KB per core |
L2 cache | 256 KB per core |
L3 cache | 2–6 MB (shared) |
L4 cache | 128 MB of eDRAM (Iris Pro models only) |
Created | 2014 |
Transistors | 14 nm transistors |
Architecture | Broadwell x86 |
Instructions | MMX, AES-NI, CLMUL, FMA3 |
Extensions | |
Socket(s) |
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Predecessor | |
Successor | |
GPU |
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Brand name(s) |
Broadwell is Intel's codename for the 14 nanometer die shrink of its Haswell microarchitecture. It is a "tick" in Intel's tick-tock principle as the next step in semiconductor fabrication.[1][2][3] Like some of the previous tick-tock iterations, Broadwell will not completely replace the full range of CPUs from the previous microarchitecture (Haswell), as there will be no low-end desktop CPUs based on Broadwell.[4]
Some of the processors based on the Broadwell microarchitecture are marketed as "5th-generation Core" i3, i5 and i7 processors. This moniker is however not used for marketing of the Broadwell-based Celeron, Pentium or Xeon chips. This microarchitecture also introduced the Core M processor branding.
Broadwell's H and C variants will be used in conjunction with Intel 9 Series chipsets (Z97, H97 and HM97), in addition to retaining backward compatibility with some of the Intel 8 Series chipsets.[5]
Design and variants
Broadwell has been launched in three major variants:[6]
- BGA package:
- Broadwell-Y: system on a chip (SoC); 4.5 W and 3.5 W thermal design power (TDP) classes, for tablets and certain ultrabook-class implementations. GT2 GPU will be used, while maximum supported memory is 8 GB of LPDDR3-1600.[7] These will be the first chips to roll out, and are expected for Q3/Q4 2014. At Computex 2014, Intel announced that these chips will be branded as Core M.[8] TSX instructions are disabled in this series of processors because a bug that cannot be fixed with a microcode update exists.[9]
- Broadwell-U: SoC; two TDP classes – 15 W for 2+2 and 2+3 configurations (two cores with a GT2 or GT3 GPU) as well as 28 W for 2+3 configurations.[10] Designed to be used on motherboards with the PCH-LP chipset for Intel's ultrabook and NUC platforms. Maximum supported is up to 16 GB of DDR3 or LPDDR3 memory, with DDR3-1600 and LPDDR3-1867 as the maximum memory speeds. The 2+2 configuration is scheduled for Q4 2014, while the 2+3 is estimated for Q1 2015.[6] For Broadwell-U models with integrated 5x00 GPUs, die size is 82 mm2 with a total of 1.3 billion transistors, while for the models with 6100 and 6200 GPUs the die size is 133 mm2 with a total of 1.9 billion transistors.
- Broadwell-H: 37 W and 47 W TDP classes, for motherboards with HM86, HM87, QM87 and the new HM97 chipsets for "all-in-one" systems, mini-ITX form-factor motherboards, and other small footprint formats. It may come in two different variants, as single and dual chips; the dual chips (4 cores, 8 threads) will have GT3e and GT2 GPU, while a single chip (SoC; two cores, four threads) will have GT3e GPU. Maximum supported memory is 32 GB of DDR3-1600.[7] These are scheduled for Q2 2015.[6]
- LGA 1150 socket:
- Broadwell-DT: quad-core unlocked desktop version with GT3e integrated graphics (Iris Pro 6200) and 128 MB of eDRAM L4 cache, in a 65 W TDP class. Announced to be backward compatible with the LGA 1150 motherboards designed for Haswell processors.[11]
- LGA 2011-v3 socket:
- Broadwell-EP: to be marketed as Xeon E5-2600 v4 etc., while using the C610 Wellsburg chipset platform. Up to 22 cores and 44 threads, up to 55 MB of total cache and 40 PCI Express 3.0 lanes, with 55–160 W TDP classes. Maximum supported memory speed is quad-channel DDR4-2400.[12]
- Broadwell-EX: Brickland platform, for mission-critical servers. Intel QuickPath Interconnect (QPI) is expected to be updated to version 1.1, enabling seamless scaling beyond eight-socket systems. Maximum supported memory speeds are expected to be DDR3-1600 and DDR4-1866.[13][14] Up to 24 core and 48 threads, up to 60 MB of L3 cache and 32 PCI Express 3.0 lanes, with 115–165 W TDP.
- Broadwell-E: HEDT platform, for enthusiasts. With a maximum of 10 cores it is said to be released during computex, and subsequently was released in July of 2016. Consisting of four processors: the 6800K, 6850K, 6900K, and the deca-core 6950X with clock speeds ranging from 3 GHz to 3.9 GHz as well as up to 25 mb of L3 cache, however over clocking these processors has seen a max overclock headroom of 4.3 GHz stable .[15]
Instruction set extensions
Broadwell introduces some instruction set architecture extensions:[16][17]
- Intel ADX:
ADOX
andADCX
for improving performance of arbitrary-precision integer operations[18] -
RDSEED
for generating 16-, 32- or 64-bit random numbers from a thermal noise entropy stream, according to NIST SP 800-90B and 800-90C[19] -
PREFETCHW
instruction[19] - Supervisor Mode Access Prevention (SMAP) – optionally disallows access from kernel-space memory to user-space memory, a feature aimed at making it harder to exploit software bugs.
- Transactional Synchronization Extensions: This instruction set is reintroduced for all versions of Broadwell except for Broadwell-Y because a bug that cannot be fixed via microcode update in Broadwell-Y and all versions of Haswell except for the Haswell-EX variants has been fixed with a new CPU stepping level.[9]
New features
Broadwell's Intel Quick Sync Video hardware video decoder adds VP8 hardware decoding[20] and encoding[21] support. It adds VP9 and HEVC 10-bit decoding support. [22] Also, it will have two independent bit stream decoder (BSD) rings to process video commands on GT3 GPUs; this will allow one BSD ring to process decoding and the other BSD ring to process encoding at the same time.[23]
Broadwell's integrated GPU supports Direct3D 11.2, OpenGL 4.4 and OpenCL 2.0.[24][25][26] However, it is marketed as Direct3D-12-ready.[27] Broadwell-E introduced Intel Turbo Boost Max Technology 3.0.[28]
List of Broadwell processors
Desktop processors
Target segment | Cores (threads) | Processor branding and model |
GPU model | CPU frequency | TDP | Graphics clock rate | L3 cache | L4 cache[lower-alpha 1] | Release date | Price (USD) | Socket | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Base | Turbo | Base | Max | |||||||||||
Performance | 4 (8) | Core i7 | 5775C | Iris Pro 6200 | 3.3 GHz | 3.7 GHz | 65 W | 300 MHz | 1.15 GHz | 6 MB | 128 MB | June 2, 2015[29] | $366 | LGA 1150 |
Mainstream | 4 (4) | Core i5 | 5675C | 3.1 GHz | 3.6 GHz | 1.1 GHz | 4 MB | $276 |
"Broadwell-E" (14 nm)
Model number |
sSpec number |
Cores | Frequency | Turbo | L2 cache |
L3 cache |
TDP | Socket | I/O bus | Memory | Release date | Part number(s) |
Release price (USD) |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Core i7-6950X |
|
10 | 3 GHz | 3.5 GHz | 10 × 256 KB | 25 MB | 140 W
|
LGA 2011-3 | DMI 2.0 | 4 × DDR4-2400 | 30 May 2016 |
|
$1723 |
Core i7-6900K |
|
8 | 3.2 GHz | 3.7 GHz | 8 × 256 KB | 20 MB | 140 W
|
LGA 2011-3 | DMI 2.0 | 4 × DDR4-2400 | 2016 |
|
$1089 |
Core i7-6850K |
|
6 | 3.6 GHz | 3.8 GHz | 6 × 256 KB | 15 MB | 140 W
|
LGA 2011-3 | DMI 2.0 | 4 × DDR4-2400 | 2016 |
|
$617 |
Core i7-6800K |
|
6 | 3.4 GHz | 3.6 GHz | 6 × 256 KB | 15 MB | 140 W
|
LGA 2011-3 | DMI 2.0 | 4 × DDR4-2400 | 2016 |
|
$434 |
Embedded processors
Target segment | Cores (threads) | Processor branding and model | GPU model | CPU frequency | TDP | Graphics clock rate | L3 cache | L4 cache[lower-alpha 1] | Release date | Price (USD) | Socket | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Base | Turbo | Base | Max | |||||||||||
Performance | 4 (8) | Core i7 | 5775R | Iris Pro 6200 | 3.3 GHz | 3.8 GHz | 65 W | 300 MHz | 1.15 GHz | 6 MB | 128 MB | June 2, 2015[29] | $348 | BGA 1364 |
Mainstream | 4 (4) | Core i5 | 5675R | 3.1 GHz | 3.6 GHz | 1.1 GHz | 4 MB | $265 | ||||||
5575R | 2.8 GHz | 3.3 GHz | 1.05 GHz | $244 | ||||||||||
Server | 4 (8) | Xeon E3 | 1284Lv4 | Iris Pro P6300 | 2.9 GHz | 3.8 GHz | 47 W | 1.15 GHz | 6 MB | OEM | ||||
1278Lv4 | 2.0 GHz | 3.3 GHz | 800 MHz | 1.0 GHz | $546 | |||||||||
1258Lv4 | P5700 | 1.8 GHz | 3.2 GHz | 700 MHz | N/A | $481 |
Mobile processors
Target segment | Cores (threads) | Processor branding and model | GPU model | Base frequency | Turbo frequency | TDP | cTDP down | Graphics clock rate | L3 cache | Release date | Price (USD) | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Single Core | Dual Core | Base | Max | |||||||||||
Performance | 4 (8) | Core i7 | 5950HQ | Iris Pro 6200 | 2.9 GHz | 3.7 GHz | N/A | 47 W | N/A | 300 MHz | 1.15 GHz | 6 MB | June 2015 | $623 |
5850HQ | Iris Pro 6200 | 2.7 GHz | 3.6 GHz | N/A | 47 W | N/A | 300 MHz | 1.1 GHz | 6 MB | June 2015 | $434 | |||
5750HQ | Iris Pro 6200 | 2.5 GHz | 3.4 GHz | N/A | 47 W | 600 MHz / 37 W | 300 MHz | 1.05 GHz | 6 MB | June 2015 | $434 | |||
5700HQ | HD 5600 | 2.7 GHz | 3.5 GHz | N/A | 47 W | 600 MHz / 37 W | 300 MHz | 1.05 GHz | 6 MB | June 2015 | $378 | |||
Mainstream | 2 (4) | 5650U | HD 6000 | 2.2 GHz | 3.2 GHz | 3.1 GHz | 15 W | 600 MHz / 9.5 W | 300 MHz | 1 GHz | 4 MB | Q1 2015 | $426 | |
5600U | HD 5500 | 2.6 GHz | 3.2 GHz | 3.1 GHz | 15 W | 600 MHz / 7.5 W | 300 MHz | 950 MHz | 4 MB | Q1 2015 | $393 | |||
5557U | Iris 6100 | 3.1 GHz | 3.4 GHz | 3.4 GHz | 28 W | N/A / 23 W | 300 MHz | 1.1 GHz | 4 MB | Q1 2015 | $426 | |||
5550U | HD 6000 | 2.0 GHz | 3.0 GHz | 2.9 GHz | 15 W | 600 MHz / 9.5 W | 300 MHz | 1 GHz | 4 MB | Q1 2015 | $426 | |||
5500U | HD 5500 | 2.4 GHz | 3.0 GHz | 2.9 GHz | 15 W | 600 MHz / 7.5 W | 300 MHz | 950 MHz | 4 MB | Q1 2015 | $393 | |||
Core i5 | 5350H | Iris Pro 6200 | 3.1 GHz | 3.5 GHz | N/A | 47 W | N/A | 300 MHz | 1.05 GHz | 4 MB | June 2015 | $289 | ||
5350U | HD 6000 | 1.8 GHz | 2.9 GHz | 2.7 GHz | 15 W | 600 MHz / 9.5 W | 300 MHz | 1 GHz | 3 MB | Q1 2015 | $315 | |||
5300U | HD 5500 | 2.3 GHz | 2.9 GHz | 2.7 GHz | 15 W | 600 MHz / 7.5 W | 300 MHz | 900 MHz | 3 MB | Q1 2015 | $281 | |||
5287U | Iris 6100 | 2.9 GHz | 3.3 GHz | 3.3 GHz | 28 W | 600 MHz / 23 W | 300 MHz | 1.1 GHz | 3 MB | Q1 2015 | $315 | |||
5257U | Iris 6100 | 2.7 GHz | 3.1 GHz | 3.1 GHz | 28 W | 600 MHz / 23 W | 300 MHz | 1.05 GHz | 3 MB | Q1 2015 | $315 | |||
5250U | HD 6000 | 1.6 GHz | 2.7 GHz | 2.5 GHz | 15 W | 600 MHz / 9.5 W | 300 MHz | 950 MHz | 3 MB | Q1 2015 | $315 | |||
5200U | HD 5500 | 2.2 GHz | 2.7 GHz | 2.5 GHz | 15 W | 600 MHz / 7.5 W | 300 MHz | 900 MHz | 3 MB | February 2015[30] | $281 | |||
Core i3 | 5157U | Iris 6100 | 2.5 GHz | N/A | N/A | 28 W | 600 MHz / 23 W | 300 MHz | 1 GHz | 3 MB | January 2015 | $315 | ||
5020U | HD 5500 | 2.2 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 300 MHz | 900 MHz | 3 MB | March 2015 | $281 | |||
5015U | HD 5500 | 2.1 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 300 MHz | 850 MHz | 3 MB | March 2015 | $275 | |||
5010U | HD 5500 | 2.1 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 300 MHz | 900 MHz | 3 MB | January 2015 | $281 | |||
5005U | HD 5500 | 2.0 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 300 MHz | 850 MHz | 3 MB | January 2015 | $275 | |||
Pentium | 3825U | HD Graphics | 1.9 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 300 MHz | 850 MHz | 2 MB | March 2015 | |||
2 (2) | 3805U | HD Graphics | 1.9 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 100 MHz | 800 MHz | 2 MB | Q1 2015 | $161 | ||
Celeron | 3755U | HD Graphics | 1.7 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 100 MHz | 800 MHz | 2 MB | Q1 2015 | $107 | ||
3205U | HD Graphics | 1.5 GHz | N/A | N/A | 15 W | 600 MHz / 10 W | 100 MHz | 800 MHz | 2 MB | Q1 2015 | $107 | |||
Target segment |
Cores (Threads) |
Processor Branding & Model |
GPU Model | Programmable TDP[31]:69–72 | CPU Turbo | Graphics Clock rate | L3 Cache |
Release Date |
Price (USD) | |||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
SDP[32][33]:71 | cTDP down[a] | Nominal TDP[b] | cTDP up[c] | 1-core | Normal | Turbo | ||||||||
Mainstream | 2 (4)[34] | Core M (vPro) | 5Y71 | HD 5300 (GT2)[35] |
3.5 W | 3.5 W / 600 MHz | 4.5 W / 1.2 GHz | 6 W / 1.4 GHz | 2.9 GHz | 300 MHz | 900 MHz | 4 MB | October 27, 2014 | $281 |
5Y70 | N/A | N/A | 4.5 W / 1.1 GHz | N/A | 2.6 GHz | 100 MHz | 850 MHz | September 5, 2014 | $281 | |||||
Core M | 5Y51 | 3.5 W | 3.5 W / 600 MHz | 6 W / 1.3 GHz | 300 MHz | 900 MHz | October 27, 2014 | $281 | ||||||
5Y31 | 4.5 W / 900 MHz | 6 W / 1.1 GHz | 2.4 GHz | 850 MHz | ||||||||||
5Y10c | 4.5 W / 800 MHz | 6 W / 1 GHz | 2.0 GHz | 800 MHz | ||||||||||
5Y10a | N/A | N/A | N/A | 100 MHz | September 5, 2014 | $281 | ||||||||
5Y10[36] | 4 W / ? MHz |
- When a cooler or quieter mode of operation is desired, this mode specifies a lower TDP and lower guaranteed frequency versus the nominal mode.[31]:71–72
- This is the processor's rated frequency and TDP.[31]:71–72
- When extra cooling is available, this mode specifies a higher TDP and higher guaranteed frequency versus the nominal mode.[31]:71–72
Server processors
Target segment | Cores (threads) | Processor branding and model | GPU model | Base frequency | Turbo frequency | TDP | Socket | Memory | L3 cache | Release date | Price (USD) | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Single core | All cores | Type | Channel | |||||||||||
SoC server | 8 (16) | Xeon D | D-1540 | N/A | 2 GHz | N/A | 2.6 GHz | 45 W | FCBGA 1667 | DDR4 | Dual | 12 MB | Q1 2015 | $581 |
4 (8) | D-1520 | N/A | 2.2 GHz | N/A | 2.6 GHz | 6 MB | Q1 2015 | $199 |
Target segment |
Cores (threads) |
Processor branding and model |
GPU model | CPU clock rate | Graphics clock rate | L3 cache |
TDP | Release date |
Release price (USD) tray / box |
Motherboard | |||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Normal | Turbo | Normal | Turbo | Socket | Interface | Memory | |||||||||
Server | 4 (8) | Xeon E3 v4 | 1285v4 | HD (P6300) | 3.5 GHz | 3.8 GHz | 300 MHz | 1.15 GHz | 6 MB | 95 W | Q2 15 | $556 / — | LGA 1150 |
DMI 2.0 PCIe 3.0 |
DDR3 or DDR3L 1333/1600/1866 with ECC |
1285Lv4 | 3.4 GHz | 65 W | $445 / — | ||||||||||||
1265Lv4 | 2.3 GHz | 3.3 GHz | 1.05 GHz | 35 W | $417 / — |
Target segment |
Cores (threads) |
Processor branding and model |
CPU clock rate | L3 cache |
TDP | Release date |
Release price |
Motherboard | ||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Normal | Turbo | Socket | Interface | Memory | ||||||||
Server (dual socket) |
22 (44) | Xeon E5 v4 | 2699v4 | 2.2 GHz | 3.6 GHz | 55 MB | 145 W | Q1 16 | $4115 | LGA 2011-3 |
PCIe 3.0 | DDR4 1600/1866/2133/2400 with ECC |
20 (40) | 2698v4 | 2.2 GHz | 3.6 GHz | 50 MB | 135 W | $3226 | ||||||
18 (36) | 2697v4 | 2.3 GHz | 3.6 GHz | 45 MB | 145 W | $2702 | ||||||
16 (32) | 2697Av4 | 2.6 GHz | 3.6 GHz | 40 MB | 145 W | $2891 | ||||||
18 (36) | 2695v4 | 2.1 GHz | 3.3 GHz | 45 MB | 120 W | $2424 | ||||||
14 (28) | 2690v4 | 2.6 GHz | 3.5 GHz | 35 MB | 135 W | $2090 | ||||||
12 (24) | 2687Wv4 | 3.0 GHz | 3.5 GHz | 30 MB | 160 W | $2141 | ||||||
16 (32) | 2683v4 | 2.1 GHz | 3.0 GHz | 40 MB | 120 W | $1745 | ||||||
14 (28) | 2680v4 | 2.4 GHz | 3.3 GHz | 35 MB | 120 W | $1745 | ||||||
8 (16) | 2667v4 | 3.2 GHz | 3.6 GHz | 25 MB | 135 W | $2057 | ||||||
14 (28) | 2660v4 | 2.0 GHz | 3.2 GHz | 35 MB | 105 W | $1445 | ||||||
2658v4 | 2.3 GHz | 2.8 GHz | $1832 | |||||||||
12 (24) | 2650v4 | 2.2 GHz | 2.9 GHz | 30 MB | 105 W | $1166 - $1171 | ||||||
14 (28) | 2650Lv4 | 1.7 GHz | 2.5 GHz | 35 MB | 65 W | $1329 | ||||||
2648Lv4 | 1.8 GHz | 2.5 GHz | 75 W | $1544 | ||||||||
6 (12) | 2643v4 | 3.4 GHz | 3.7 GHz | 20 MB | 135 W | $1552 | ||||||
10 (20) | 2640v4 | 2.4 GHz | 3.4 GHz | 25 MB | 90 W | $939 | DDR4 1600/1866/2133 with ECC | |||||
4 (8) | 2637v4 | 3.5 GHz | 3.7 GHz | 15 MB | 135 W | $996 | DDR4 1600/1866/2133/2400 with ECC | |||||
10 (20) | 2630v4 | 2.2 GHz | 3.1 GHz | 25 MB | 85 W | $667 | DDR4 1600/1866/2133 with ECC | |||||
2630Lv4 | 1.8 GHz | 2.9 GHz | 55 W | $612 | ||||||||
12 (24) | 2628Lv4 | 1.9 GHz | 2.4 GHz | 30 MB | 75 W | $1364 | ||||||
4 (8) | 2623v4 | 2.6 GHz | 3.2 GHz | 10 MB | 85 W | $444 | ||||||
8 (16) | 2620v4 | 2.1 GHz | 3.0 GHz | 20 MB | $417 | |||||||
10 (20) | 2618Lv4 | 2.2 GHz | 3.2 GHz | 25 MB | 75 W | $779 | ||||||
8 (8) | 2609v4 | 1.7 GHz | 1.7 GHz | 20 MB | 85 W | $306 - $310 | DDR4 1600/1866 with ECC | |||||
8 (16) | 2608Lv4 | 1.6 GHz | 1.7 GHz | 50 W | $363 | |||||||
6 (6) | 2603v4 | 1.7 GHz | 1.7 GHz | 15 MB | 85 W | $213 | ||||||
Server (single socket) |
8 (16) | 1680v4 | 3.4 GHz | 4.0 GHz | 20 MB | 140 W | Q2 16 | $1723 | DDR4 1600/1866/2133/2400 with ECC | |||
1660v4 | 3.2 GHz | 3.8 GHz | $1113 | |||||||||
6 (12) | 1650v4 | 3.6 GHz | 4.0 GHz | 15 MB | $617 - $621 | |||||||
4 (8) | 1630v4 | 3.7 GHz | 4.0 GHz | 10 MB | $406 | |||||||
1620v4 | 3.5 GHz | 3.8 GHz | $294 - $297 | |||||||||
Roadmap and history
On September 10, 2013, Intel showcased the Broadwell 14 nm processor in a demonstration at IDF. Intel CEO Brian Krzanich claimed that the chip would allow systems to provide a 30 percent improvement in power use over the Haswell chips released in mid-2013. Krzanich also claimed that the chips would ship by the end of 2013;[37] however, the shipment was delayed due to low yields from Intel's 14 nm process.[38]
On October 21, 2013, a leaked Intel roadmap indicated a late 2014 or early 2015 release of the K-series Broadwell on the LGA 1150 platform, in parallel with the previously announced Haswell refresh. This will coincide with the release of Intel's 9-series chipset, which may be required for Broadwell processors due to a change in power specifications for its LGA 1150 socket.[39][40]
On May 18, 2014, Reuters quoted Intel's CEO promising that Broadwell-based PCs will be on shelves for the holiday season, but probably not for the back-to-school shopping.[41]
Mobile CPUs are expected in Q4 2014 and high-performance quad-core CPUs in 2015. The mobile CPUs will benefit from the reduced energy consumption of the die shrink.[42][43]
On June 18, 2014, Intel told CNET that while some specialized Broadwell-based products would be out in Q4 2014, "broader availability" (including mobile CPUs) would only happen in 2015.[44]
As of July 2014, Broadwell CPUs are available to Intel's hardware partners in sample quantities.[45] Intel is expected to release 17 Broadwell U series family microprocessors at CES 2015.[46] Also, according to a leak posted on vr-zone, Broadwell-E chips will be available in 2016.[47]
On August 11, 2014, Intel unveiled formally its 14 nm manufacturing process, which is used for Broadwell, and indicated that mobile variants of the process will be known as Core M products. Additionally, Core M products were announced to be shipping during the end of 2014, with desktop variants shipping shortly after.[48]
With Broadwell, Intel focused mainly on laptops, miniature desktops, and all-in-one systems.[49] This left traditional desktop users with no new socketed CPU options beyond fourth-generation Haswell, which first arrived in 2013. Even though the company finally introduced two Broadwell desktop chips in the summer of 2015, it launched its high-end sixth-generation Skylake CPUs very shortly thereafter. In September 2015, Kirk Skaugen, senior vice president and general manager of Intel's Client Computing Group, admitted that skipping desktops with Broadwell was a poor decision. Between the end-of-life for Windows XP in 2014 and the lack of new desktop chips, Intel has not given desktop PC users any good reasons to upgrade in 2015.[49]
Releases
On September 5, 2014, Intel launched the first three Broadwell-based processors that belong to the low-TDP Core M family, Core M 5Y10, Core M 5Y10a and Core M 5Y70.[50]
On October 9, 2014, the first laptop with Broadwell Intel Core M 5Y70 CPU, Lenovo Yoga 3 Pro, was launched.[51]
On October 31, 2014, four more Broadwell based CPUs were launched belonging to Core M Family, increasing the number of launched Broadwell CPUs to seven.[52]
On January 5, 2015, 17 additional Broadwell laptop CPUs were launched for the Celeron, Pentium and Core i3, i5 and i7 series.[53]
On March 31, 2016, Intel officially launched 14 nm Broadwell-EP Xeon E5 V4 CPUs.[54]
On May 30, 2016, Intel officially launched 14 nm Broadwell-E Core i7 69xx/68xx processor family.
See also
Notes
References
- ↑ "22nm Details" (PDF) (presentation). Intel. Retrieved January 4, 2012.
- ↑ Demerjian, Charlie. "After Intel's Haswell comes Broadwell". SemiAccurate. Retrieved January 4, 2012.
- ↑ Broekhuijsen, Niels (May 22, 2014). "Intel Broadwell CPUs to Arrive Later This Year". Tom's Hardware. Retrieved May 31, 2014.
- ↑ "Lower-end desktop CPUs won't get Broadwell, will need to wait for Skylake". Ars Technica.
- ↑ Reynolds, Sam (August 26, 2013). "Intel's 9-series chipsets will support Broadwell". vr-zone.com. Archived from the original on November 20, 2013. Retrieved November 20, 2013.
- 1 2 3 "Intel Broadwell Production Plan Leaked – BDW-H Delayed To May 2015". WCCFTech. Retrieved May 21, 2014.
- 1 2 "Intel's 14nm Process 'Broadwell' Lineup Details Leaked". WCCFTech. Retrieved December 12, 2013.
- ↑ Cutress, Ian (June 3, 2014). "Intel Keynote at Computex 2014: 14nm Core-M, SoFIA, Devil's Canyon, DC P3700 and RealSENSE". AnandTech. Retrieved June 5, 2014.
- 1 2 Wasson, Scott (August 12, 2014). "Errata prompts Intel to disable TSX in Haswell, early Broadwell CPUs". The Tech Report. Retrieved March 23, 2016.
- ↑ "Intel Broadwell GPUs to use HD 5x00, Iris 6100 and Iris Pro 6200 branding". cpu-world.com.
- ↑ "Intel Broadwell Core i7-5775C and Core i5-5675C Processors With Iris Pro Graphics 6200 Detailed – Launching in Q2 2015". wccftech.com. March 23, 2015. Retrieved March 24, 2015.
- ↑ Anton Shilov (May 25, 2015). "Skylake Purley: Intel Xeon E5 and E7 Platform Update". xbitlabs.com. Retrieved May 25, 2015.
- ↑ Valich, Theo (January 10, 2014). "Intel Brickland & Grantley Platforms Revealed: Ivy Bridge-EX, Haswell-EX, Broadwell-EX". Vr-zone.com. Retrieved January 19, 2014.
- ↑ Novakovic, Nebojsa (January 10, 2014). "Socket 2011 to become the dominant Intel high end physical format even on Xeon EX – but different pin-outs, of course". Vr-zone.com. Retrieved January 19, 2014.
- ↑ "Intel Broadwell-E Specifications Leaked - Core i7-6950X Flagship Processor To Rock 10 Cores and 20 Threads, Core i7-6900K, Core i7-6850K and Core i7-6800K Detailed". WCCFtech. Retrieved 2016-04-10.
- ↑ "Intel Software Development Emulator | Intel Developer Zone". Software.intel.com. July 23, 2013. Retrieved October 16, 2013.
- ↑ Intel Architecture Instruction Set Extensions Programming Reference (Document number 319433-013B) // Intel, July 2012, Chapter 9 "ADDITIONAL NEW INSTRUCTIONS"
- ↑ New Instructions Supporting Large Integer Arithmetic on Intel Architecture Processors (Document number 327831 -001) // Intel, August 2012
- 1 2 Intel C++ Composer XE 2013 for Windows* Installation Guide and Release Notes (Document number: 321414-004US) // Intel, October 4, 2012; section "3.2.4 Inline assembly and intrinsic support for Intel architecture code named Broadwell added to Composer XE 2013 Update 1", page 13
- ↑ "VA-API 1.3 Readies Broadwell Support, Adds VP8 Decoding". Phoronix.com. March 18, 2014. Retrieved June 10, 2015.
- ↑ "VA-API Adds Support For VP8 Video Encoding". Phoronix.com. July 19, 2014. Retrieved June 10, 2015.
- ↑ "Intel® Iris™ and HD Graphics Driver update posted for Haswell and Broadwell version 15.36.14.4080".
- ↑ "Intel Broadwell GT3 Graphics Have Dual BSD Rings". Phoronix.com. Retrieved April 17, 2014.
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- ↑ "The Compute Architecture of Intel Processor Graphics Gen8".
- ↑ Cutress, Ian. "Broadwell GPU Improvements". Retrieved November 24, 2015.
- ↑ http://wccftech.com/intel-broadwell-e-core-i7-processors-specs-prices-launch/
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Configurable TDP (cTDP) and Low-Power Mode (LPM) form a design vector where the processor behavior and package TDP are dynamically adjusted to a desired system performance and power envelope. [...] With cTDP, the processor is now capable of altering the maximum sustained power with an alternate guaranteed frequency. Configurable TDP allows operation in situations where extra cooling is available or situations where a cooler and quieter mode of operation is desired.
- ↑ "The technical details behind Intel's 7 Watt Ivy Bridge CPUs". arstechnica.com. January 14, 2013. Retrieved December 22, 2013.
If the CPU needs to work hard for an extended period of time and the laptop gets warmer, it will slowly ramp down its speed until it's operating at its stated TDP. [...] There are two OEM-configurable "power level" states that define how quick the CPU can be in these situations: PL2 tells the processor how much power it's allowed to use when it needs a short burst of speed, and PL1 defines how quickly the processor can run under sustained load. [...] This is at the heart of what Intel is doing with the Y-series processors: their maximum TDP has been lowered four watts, from 17 to 13. Intel is also validating them for use at two lower PL1 values: 10 watts and 7 watts. This is where the marketing we discussed earlier comes in—rather than keeping these values under the covers as it has so far been content to do, Intel has taken that lowest value, put it on its product pages, and called it SDP.
- ↑ "4th Generation Intel Core processor based on Mobile U-Processor and Y-Processor Lines Datasheet, Volume 1 of 2" (PDF). intel.com. December 2013. Retrieved December 22, 2013.
- ↑ Ian Cutress. "Intel's Core M Strategy: CPU Specifications for 9mm Fanless Tablets and 2-in-1 Devices". Retrieved January 6, 2015.
- ↑ "Intel launches three Core M CPUs, promises more Broadwell "early 2015"". Ars Technica. Retrieved January 6, 2015.
- ↑ "Details of first Broadwell "Y" mobile processors". cpu-world.com. July 2014. Retrieved January 6, 2015.
- ↑ "Intel reveals 14nm PC, declares Moore's Law 'alive and well'". The Register. September 10, 2013. Retrieved September 28, 2014.
- ↑ "Intel delays Broadwell PC chip production to early next year". CNET. October 15, 2013. Retrieved September 28, 2014.
- ↑ "Intel's Broadwell-K launching at end of 2014 according to new roadmap". vr-zone.com. October 21, 2013. Retrieved October 24, 2013.
- ↑ Shilov, Anton (August 29, 2013). "Intel Changes Plans: Core i "Broadwell" Processors Will Be Available in LGA Packaging, But There Is a Catch". Xbit Labs. Retrieved October 24, 2013.
- ↑ "Exclusive: Intel CEO promises Broadwell PCs on shelves for holidays". reuters.com. May 18, 2014. Retrieved May 17, 2014.
- ↑ "Computex 2014: Intels Broadwell kommt rechtzeitig zum Weihnachtsgeschäft". Heise.de. May 22, 2014. Retrieved May 31, 2014.
- ↑ Chris.L (May 19, 2014). "2014 年底前絕對見到,14nm Broadwell 處理器最快在 37 周出貨". chinese.vr-zone.com. Retrieved July 19, 2014.
- ↑ Crothers, Brooke. "Intel's next-gen processor, Broadwell, is (mostly) a 2015 thing". CNET. Retrieved July 19, 2014.
- ↑ Mark Hachman (July 15, 2014). "Intel shipping Broadwell, but next-gen Skylake chip could slip". PCWorld. Retrieved July 19, 2014.
- ↑ "Intel to launch Broadwell "U" series CPUs at CES 2015".
- ↑ "Intel's Extreme Broadwell-E chips reportedly not coming until early 2016". PC Gamer.
- ↑ Hachman, Mark (August 11, 2014). "Intel aims next-gen 14nm 'Broadwell' technology at fanless tablets, Ultrabooks". PCWorld. Retrieved August 15, 2014.
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- ↑ "Intel launches first Broadwell processors".
- ↑ "The first Core M laptop paints a depressing, mediocre picture for Intel's Broadwell - ExtremeTech". ExtremeTech.
- ↑ "Intel to release Core M 5Y10c, 5Y31, 5Y51 and 5Y71 processors".
- ↑ "Broadwell U arrives: Faster laptop CPUs and GPUs from Core i7 to Celeron". ArsTechnica.
- ↑ Johan De Gelas. "The Intel Xeon E5 v4 Review: Testing Broadwell-EP With Demanding Server Workloads". anandtech.com.