Another day, another Intel leak and a few surprises as well. During the last few days we covered Intel's desktop roadmap for the next twelve months, bringing you news and insights on Intel's plans for the aforementioned time interval. Today we bring you news on what's to follow in the second half of 2014, specifically, on Intel's Premium Desktop plans for the interval, namely Haswell-E, DDR4 and the X99 PCH.

Haswell-E will be Intel's last and best offering using the 22 nm fabrication process, it will come in two versions, core count wise, 8 core part(s) as well as 6 core part(s) with hyper-threading enabled, therefore, boasting no less that 16 execution threads for the 8 core chips and 12 execution threads for the 6 core version(s). Judging by that alone, Haswell-E should constitute a far superior upgrade over Ivy Bridge-E, compared to what the latter will be in relation to Sandy Bridge-E, Haswell-E offering two additional physical cores that translate into four additional execution threads. The new chips will boast 2.5 MB of L3 Cache per core, summing up to 20 MB total L3 cache for the 8 core parts. TDP will remain in the same neighborhood it was in the case of its predecessors, around 130-140 W.

We know from older reports that Intel will refresh its socket LGA2011 HEDT (high-end desktop) product family with three new parts, based on the new 22 nm "Ivy Bridge-E" silicon. A table detailing their clock speeds was leaked to the web. In addition, we got details of what Intel's entry-level Core i3 "Haswell" line of dual-core processors would look like, specs-wise. The Ivy Bridge-E silicon, is to a large part an optical shrink of the Sandy Bridge-E silicon, with a few improvements. The chip is fabricated on Intel's 22 nm node with tri-gate transistors, the IMC natively supports DDR3-1866 MHz, the PCI-Express root complex is gen 3.0 certified, and the CPUID features the new RdRAND instruction set. Aside from these clock speeds are increased across the board, although TDP isn't lowered from the previous 130W.

Leading the Core i7 "Ivy Bridge-E" pack is the Core i7-4960X Extreme Edition, with its 3.60 GHz core, 4.00 GHz maximum Turbo Boost, unlocked base-clock multiplier, and 15 MB L3 cache. This six-core chip will command a four-figure price. Next up, is the Core i7-4930K, with 3.40 GHz core, 3.90 GHz maximum Turbo Boost, unlocked base-clock multiplier, and 12 MB L3 cache. This chip could be 30-40 percent cheaper than the i7-4960X. The cheapest of the lot, though, is the Core i7-4820K. This quad-core part, interestingly, features unlocked base-clock multiplier, unlike its predecessor, the i7-3820. Perhaps Intel didn't want a repeat of Core i7-3770K cannibalizing the i7-3820. The i7-4820K features 3.70 GHz core, 3.90 GHz Turbo Boost, and 10 MB of L3 cache. The chip may be priced in the same range as the i7-4770K. All three parts feature quad-channel DDR3 integrated memory controllers, with native support for DDR3-1866.

First sighted in January, ASUS' P9X79-E WS socket LGA2011 motherboard is ready to take on the new breed of Core "Ivy Bridge-E" and Xeon "Ivy Bridge-EP" lines of processors, even if initial versions of its BIOS don't advertise that support. Based on Intel X79 Express chipset, the board is built in the 305 x 267 mm SSI-CEB form-factor. The LGA2011 socket is powered by a 10-phase VRM, with 2+2 phase memory VRM. The CPU socket is wired to eight DDR3 DIMM slots, four on its either sides, supporting up to 64 GB of quad-channel DDR3-2133 MHz memory. The board features a total of seven PCI-Express x16 slots. 4-way NVIDIA SLI and AMD CrossFireX are supported.

Storage connectivity on the P9X79-E WS includes two SATA 6 Gb/s ports from the X79 PCH, four SATA 6 Gb/s from a Marvell-made 4-port SATA 6 Gb/s AHCI/RAID controller, four SATA 3 Gb/s from the PCH, and an additional two eSATA 6 Gb/s from an ASMedia-made controller. There are just four USB 3.0 ports on offer, all ASMedia-made controllers. Other connectivity includes two gigabit Ethernet interfaces, both driven by Intel-made controllers, 8-channel HD audio, legacy connectivity such as PS/2 and RS232 COM (header), and a pinch of overclocker-friendly features in the BIOS and on-board. The P9X79-E WS from ASUS is priced at US $499.99.

According to CPU World staff, who, by appealing to an unnamed secondary source, managed to confirm the validity of an earlier leak, we are now looking at Intel's desktop roadmap for the following twelve months. The slides reveal the Q3 launch of Intel's Ivy Bridge-E chips, the Core i7-4820K, i7-4930K and i7-4960X comprising the lineup. The new Extreme chips will make use of the existing X79 platform. Also in Q3 the Premium line will receive a new product, the Core i7-4771, which we do not know in what way differs from the currently available Core i7-4770, but a judicious appeal to wild speculation could point out an upgraded IGP.

The mid segments will get a platform upgrade in the form of a new H81 chipset, and six new processors, the Core i3-4130, i3-4330, i3-4340, as well as three new Ivy Bridge based Pentium chips, the G3220, G3420 and G3430. Celeron processors are in the pipelines for Q1 2014, while Q2 will follow with the Haswell refresh and the accompanying new platform based on the Z97 and H97 chipsets.Source: CPU World

PC enthusiast "Toppc" with the Coolaler.com, with access to a Core i7 "Ivy Bridge-E" sample clocked to match specifications of the Core i7-4960X, wasted no time in comparing the chip to a Core i7-3970X "Sandy Bridge-E." The two chips share a common socket LGA2011 design, and run on motherboards with Intel X79 Express chipset. An MSI X79A-GD45 Plus, with V17.1 BIOS was used to run the two chips. Among the tests Toppc put the chip through, are overclocker favorites SuperPi mod 1.6, CPU Mark '99, WPrime 1.63, Cinebench 11.5, 3DMark Vantage (CPU score), and 3DMark 06 (CPU score).

The Ivy Bridge-E chip outperformed its predecessor by roughly 5-10 percent across the board. In Cinebench, the i7-4960X scored 10.94 points in comparison to the i7-3970X' 10.16; SuperPi 32M was crunched by the i7-4960X in 9m 22.6s compared to the 9m 55.4s of the i7-3970X; CPU Mark scores between the two are 561 vs. 533, respectively; 3DMark Vantage CPU score being 38,644 points vs. 35,804, respectively; and 3DMark 06 scores 8,586 points vs. 8,099 points, respectively. In WPrime, the i7-4960X crunched 32M in 4.601s, compared to its predecessor's 5.01s. Below are the test screenshots, please note that they're high-resolution images, so please open each in a new tab.

Intel's Core "Haswell" processor family may be just around the corner (June 2013), but that isn't stopping enthusiasts from looking out for the next HEDT (high-end desktop) processor from Intel, codenamed "Ivy Bridge-E." The new lineup could look similar to the company's current Core i7 "Sandy Bridge-E," in that it features a quad-core part in the $300-400 range, a six-core unlocked part in the $500-600 range, and an Extreme Edition six-core part around $1000. All three parts will be available in the LGA2011 package, and compatible with current X79 chipset-based motherboards (BIOS update could be needed). DDR3-1866 MHz could become the standard memory frequency for these chips.

The lineup will begin with Core i7-4820, a quad-core chip with a nominal clock speed of 3.70 GHz, Turbo Boost speed of 3.90 GHz, and 10 MB shared L3 cache. Moving on, there's the Core i7-4930K, a six-core chip with an unlocked BClk multiplier, nominal speed of 3.40 GHz, Turbo Boost speed of 3.90 GHz, and 12 MB shared L3 cache. The series will be topped off with the Core i7-4960X Extreme Edition, featuring an unlocked BClk multiplier, 3.60 GHz nominal clock speed, 4.00 GHz Turbo Boost speed, and 15 MB shared L3 cache. The Ivy Bridge-E silicon will be built on the 22 nm silicon fab process, and TDP for all three parts is rated at 130W. The three will be released some time in Q3, 2013.Source: VR-Zone

FinalWire announced AIDA64 v2.85, the popular system diagnostic and benchmarking suite is updated with 64-bit benchmarks optimized for AMD's "Richland" APUs, improved support for "Kaveri," "Kabini," and "Temash" APUs; and Intel "Haswell" and "Valleyview" CPUs; early support for AMD "Beema" APU, Intel "Avoton" SoC, "Crystalwell," "Ivy Bridge-E," and "Haswell-E" CPU, "Haswell-ULT" SoC; preliminary support for DDR4 and GDDR5 system memory types; and GPU support for AMD Radeon HD 8000 series and NVIDIA GeForce GTX Titan.DOWNLOAD: FinalWire AIDA64 v2.85 Installer (EXE), Archive (ZIP)

With Ivy Bridge-E expected to make its debut this year (Q3 according to roadmap leaks) EVGA has decided to take another look at the LGA2011 platform. This in turn led to the making of a new motherboard based on the Intel X79 chipset, the X79 Dark.

Seen at CES 2013, EVGA's new LGA2011 board bears a black and red color theme and features an E-ATX form factor, 12+1 phase PWM, eight DDR3 memory slots (supporting up to 64 GB of RAM), ten SATA ports (six are SATA 6.0 Gbps), five PCI-Express x16 slots (accompanied by switches that disable/enable them), dual Intel Gigabit Ethernet, four USB 3.0 connectors, Bluetooth, two eSATA ports, and 7.1-channel audio.

The X79 Dark also has an angled 24-pin power connector, a debug LED, EVBot support, plus Power, Reset and Clear CMOS buttons. The motherboard is expected to arrive towards the end of Q1, or in early Q2.Source: VR-Zone

With the dawn of 2013, and no catastrophes in sight, Intel is going ahead with its usual business of phasing out old processor models, and making way for new ones. By the end of 2012, Intel will stop taking orders for several processor models mostly based on the older 32 nm "Sandy Bridge" silicon. These include chips such as the Core i7-2700K, Core i5-2310, Core i3-2105, Pentium G440, and surprisingly, an early demise of the 22 nm Core i5-3450, which is cannibalized by the Core i5-3470 at the same price point. Pentium G870, G645 and G645T as well as Celeron G555, G550 and G550T are the other chips on the chopping block.

Come 2013, Intel will release Pentium and Celeron series processors based on its 22 nm "Ivy Bridge" micro-architecture. These include the Pentium G2130, G2020 and G2020T and Celeron G1620, G1610 and G1610T. In the mobile (notebook) CPU sphere, Intel will launch dual-core "Ivy Bridge" chips to layer out its Ultrabook product segment. These include the Core i7-3687, Core i5-3437U, Celeron 1037U, 1007U, 1020M and 1000M. In March, the company is expected to launch its 4th generation Core "Haswell" line of processors.

Intel's 2011-launched Core i7 "Sandy Bridge-E" HEDT platform is based on a 32 nm silicon that's common with Xeon E5 series processors. While the silicon physically packs eight CPU cores and 20 MB last-level cache (LLC, or L3 cache), client Core i7 processors are configured with only a maximum of six cores, and up to 15 MB L3 cache. According to a MyDrivers.com report, the maximum core count won't change with next-generation 22 nm Ivy Bridge-E Core i7 processors.

Ivy Bridge-E will be an upscale of Ivy Bridge. Similar to Sandy Bridge-E, the silicon will feature up to eight cores and 20 MB L3 cache. In its Core i7 avatar, however, the chip will be configured with no more than six cores, and no more than 15 MB L3 cache. The new chip will introduce IPC improvements, PCI-Express Gen 3.0 certified root complex (one which NVIDIA will approve of), higher CPU core clock speeds, and support for faster memory.

The fastest client computing platform, Sandy Bridge-E, won't be seeing successors for a long time now, according to a Bright Side of News report. The next-generation "Ivy Bridge-E" lineup, which will carry processor model number series Core i7-49xx, aren't due until the third quarter of 2013. Ivy Bridge-E will build on the existing Sandy Bridge-E HEDT platform with Intel X79 Express chipset. Existing LGA2011 motherboards will be able to run the i7-4900 series chips with BIOS updates.

Meanwhile, the closest addition to Intel's socket LGA2011 Core i7-3900 series is the Core i7-3970X, which displaces the Core i7-3960X from the top spot. This chip will hit the shelves in a few weeks' time. According to a leaked specs sheet, the i7-3970X ships with a nominal clock speed of 3.50 GHz, with maximum Turbo Boost speed of 4.00 GHz. The specs sheet also confirms that i7-3970X will be a six-core chip, with HyperThreading enabling 12 logical CPUs, allaying rumors that Intel will unlock two additional cores and the full 20 MB L3 cache on the Sandy Bridge-E silicon, making it an eight-core chip.Source: Bright Side of News

Intel's next high-end desktop (HEDT) platform, codenamed "Ivy Bridge-E," is slated for Q3-2013, according to the latest platform road-map slide sourced by VR-Zone. According to the leaked slide, launch of Ivy Bridge-E Core i7 processors follows that of Core "Haswell" socket LGA1150 processors (Q2-2013). What's more, the upcoming Ivy Bridge-E chips will be compatible with existing socket LGA2011 motherboards, based on Intel X79 Express chipset.

Intel's next-generation Ivy Bridge-E chips are up-scaled versions of today's Core "Ivy Bridge" chips, built on the same 22 nm process, with more processing cores, memory channels, cache, and PCI-Express 3.0 certified system interfaces. It remains to be seen if Intel launches a new chipset to go with the new processor, or retains the X79 chipset with a few minor updates in the form of steppings. The company retained its X58 Express chipset over the first two HEDT processor generations (45 nm Core i7 "Bloomfield" and 32 nm Core i7 "Westmere").

Source: VR-Zone Chinese

Early adopters of LGA2011 "Sandy Bridge-E" platforms can take a breather, their rigs won't turn obsolete for a long time, according to an X-bit Labs report. "Ivy Bridge-E", a hypothetical successor of Sandy Bridge-E, which is an Ivy Bridge take on the LGA2011-HEDT platform won't take shape anytime soon, at least not till the second half of 2013. The likely explanation for this is the disturbance the delay in LGA1155 "Ivy Bridge" chips to the OEM channels caused to Intel's roadmaps.

Intel will be introducing its very first processors built on the 22 nm fab process, which make use of new semiconductor technologies such as space-optimized 3D-transistors. Swelling inventories of current-generation processors, coupled with fab issues caused the launches of Ivy Bridge to go off by several weeks, and this has taken a toll on the launch schedule of "Ivy Bridge-E". Instead, Intel could launch Core i7-3980X Extreme Edition a little later. This chip will be based on the existing Sandy Bridge-E silicon, it remains to be seen if the chip is a speed-bump over i7-3960X, or if Intel enables cores 7 and 8, and the remaining 5 MB L3 cache on the silicon, turning it to an eight-core Goliath.Source: Xbit Labs

The latest Sandy Bridge-E 6 core processors have just been released, to excellent reviews. However, the architecture is designed for 8 cores, so these current i7-3960X & i7-3930K processors actually contain those 8 cores, but with two turned off in order to enable them to fit within a manageable 130 W power envelope. Hence there's quite a bit more potential to be released and soon. Therefore, anyone looking to invest in the premium-priced SB-E platform right now, should note that these processors are at the initial C1 stepping and have the VT-d hardware virtualization issue and PCI-E 3.0 compatibility uncertainty. The VT-d problem will be a real show stopper where hardware acceleration of a virtual machine is a must, so it shouldn't be ignored.

VR-ZONE brings us news that the fully unlocked SB-E 8 core chips will be released as the long awaited Xeon E5 family of processors, which will be built on the C2 stepping, solving the above issues. However, being 8 core, these will be very power hungry indeed, consuming around 150 W at just 3 GHz with all 8 cores active and 20 MB of L3 cache. At 2.5 GHz though, the new processors are expected to fit within the 95 W power envelope.

Earlier this week, Intel launched the fastest desktop processors under its Core i7 "Sandy Bridge-E" platform, with is partners, motherboard, memory and cooler vendors. Less than a week into its shelf life, Sandy Bridge-E already has a successor taking shape at Intel, slated for the fourth quarter of 2012, but that's far from being the most interesting part of this news. According to a new internal slide scored by a source at XFastest, Ivy Bridge-E will be compatible with today's Intel X79 platform, and LGA2011 socket.

Suddenly, Sandy Bridge-E makes for a sweeter deal because its platform longevity (for upgrades) is at least two years. Ivy Bridge-E, like Ivy Bridge LGA1155, will be built on the 22 nanometer silicon fabrication process. We don't expect Ivy Bridge-E to be much more than an optical shrink of today's Sandy Bridge-E silicon, but the shrink could leave scope for enabling some of its components otherwise locked out for the Core processor family. Sandy Bridge-E silicon physically holds 8 cores and 20 MB of L3 cache, but the fastest Core processor based on it has just 6 of those cores, and 15 MB of L3 enabled. The source at XFastest says that while Ivy Bridge-E is slated for Q4 2012, the LGA1155 Ivy Bridge will launch across Q1 and Q2 of 2012 (March~April).

Source: XFastest