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CHF 675.–

Intel Core i7 6850K (LGA 2011-v3, 3.60GHz, Unlocked)

Art-Nr 5779722
 more than 10 piece(s) in our warehouse

Availability

Mail delivery

  • more than 10 piece(s)
    in our warehouse

PickMup

Collection

  • Basel: today at 13:10
  • Bern: today at 12:45
  • Dietikon: today at 14:30
  • Kriens: today at 11:20
  • Lausanne: today at 15:40
  • St Gallen: today at 15:30
  • Winterthur: today at 13:30
  • Wohlen: more than 10 piece(s)
  • Zurich: today at 12:30

If ordered immediately.
Information subject to change.

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Overall rating

3

4.3 out of 5 stars

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Specifications

Key specifications

Number of processor cores6
SocketLGA 2011-v3
Clock frequency3.60 GHz
UnlockedYes
Processor familyCore i7 6th Gen

General information

Manufacturer Intel
Product type Processors
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Processors

The central processing unit (CPU) is the portion of a computer system that carries out the instructions of a computer program, to perform the basic arithmetical, logical, and input/output operations of the system. The CPU plays a role somewhat analogous to the brain in the computer. The term has been in use in the computer industry at least since the early 1960s. The form, design and implementation of CPUs have changed dramatically since the earliest examples, but their fundamental operation remains much the same.

More information...

Item number5779722
Manufacturer no.BX80671I76850K
Sales rank in Product type Processors6 of 150
External links Manufacturer's site (de)

Processor

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Processor

A processor is a key component of a computing device, which steers other components via software. The fundamental property of a processor is its programmability. The behaviour of a processor is determined by programmers by means of computer code. The main processor components are the register, arithmetic and logic unit (ALU), control unit and the memory management unit (MMU), which administers memory. Central tasks of a processor include arithmetic operations, reading and writing data in the memory as well as executing programme jumps.

Processor family
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Processor family

The family the processor belongs to.

Core i7 6th Gen
CPU socket
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CPU socket

A CPU socket or CPU slot is a mechanical component that provides mechanical and electrical connections between a microprocessor and a printed circuit board (PCB). This allows the CPU to be replaced without soldering.
Common sockets have retention clips that apply a constant force, which must be overcome when a device is inserted. For chips with a large number of pins, either zero-insertion force (ZIF) sockets or land grid array (LGA) sockets are used instead. These designs apply a compression force once either a handle (for ZIF type) or a surface plate (LGA type) is put into place. This provides superior mechanical retention while avoiding the risk of bending pins when inserting the chip into the socket.

More information...

LGA 2011-v3
Intel Core
Broadwell-E
Processor clock frequency
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Processor clock frequency

In electronics and especially synchronous digital circuits, a clock signal is a particular type of signal that oscillates between a high and a low state and is utilized like a metronome to coordinate actions of circuits. Although the word signal has a number of other meanings, the term is here used for "transmitted energy that can carry information".

A clock signal is produced by a clock generator. Although more complex arrangements are used, the most common clock signal is in the form of a square wave with a 50% duty cycle, usually with a fixed, constant frequency. Circuits using the clock signal for synchronization may become active at either the rising edge, falling edge, or, in the case of double data rate, both in the rising and in the falling edges of the clock cycle.

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3.60 GHz
Max. turbo clock rate
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Max. turbo clock rate

Using the Intel Turbo Boost Technology, the frequency of the processor can be dynamically increased in operation

4 GHz
64-bit architecture
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64-bit architecture

In computer architecture, 64-bit integers, memory addresses, or other data units are those that are at most 64 bits (8 octets) wide. Also, 64-bit CPU and ALU architectures are those that are based on registers, address buses, or data buses of that size.
The Basic advantage of a 64-bit System is, that more than 4GB RAM can be adressed.

More information...

Yes
Number of processor cores
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Number of processor cores

A multi-core processor (or chip-level multiprocessor, CMP) combines two or more independent cores (normally a CPU) into a single package composed of a single integrated circuit (IC), called a die, or more dies packaged together. A dual-core processor contains two cores, and a quad-core processor contains four cores.

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6
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6

The processor has six cores.

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Number of threads
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Number of threads

In computer science, a thread of execution is the smallest unit of processing that can be scheduled by an operating system. The implementation of threads and processes differs from one operating system to another, but in most cases, a thread is contained inside a process. Multiple threads can exist within the same process and share resources such as memory, while different processes do not share these resources. In particular, the threads of a process share the latter's instructions (its code) and its context (the values that its variables reference at any given moment). To give an analogy, multiple threads in a process are like multiple cooks reading off the same cook book and following its instructions, not necessarily from the same page.

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12
Lithography
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Lithography

Photolithography (or "optical lithography") is a process used in microfabrication to selectively remove parts of a thin film or the bulk of a substrate. It uses light to transfer a geometric pattern from a photo mask to a light-sensitive chemical "photoresist", or simply "resist," on the substrate.

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14 nm
Max. TDP
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Max. TDP

The thermal design power (TDP), sometimes called thermal design point, refers to the maximum amount of power the cooling system in a computer is required to dissipate. For example, a laptop's CPU cooling system may be designed for a 20 watt TDP, which means that it can dissipate up to 20 watts of heat without exceeding the maximum junction temperature for the computer chip. It can do this using an active cooling method such as a fan or any of the three passive cooling methods, convection, thermal radiation or conduction. Typically, a combination of methods is used. The TDP is typically not the most power the chip could ever draw, such as by a power virus, but rather the maximum power that it would draw when running "real applications". This ensures the computer will be able to handle essentially all applications without exceeding its thermal envelope, or requiring a cooling system for the maximum theoretical power (which would cost more but in favor of extra headroom for processing power).

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140 W
L1 Cache
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L1 Cache

A CPU cache is a cache used by the central processing unit of a computer to reduce the average time to access memory. The cache is a smaller, faster memory which stores copies of the data from the most frequently used main memory locations. As long as most memory accesses are cached memory locations, the average latency of memory accesses will be closer to the cache latency than to the latency of main memory.

When the processor needs to read from or write to a location in main memory, it first checks whether a copy of that data is in the cache. If so, the processor immediately reads from or writes to the cache, which is much faster than reading from or writing to main memory.

Most modern desktop and server CPUs have at least three independent caches: an instruction cache to speed up executable instruction fetch, a data cache to speed up data fetch and store, and a translation lookaside buffer (TLB) used to speed up virtual-to-physical address translation for both executable instructions and data. Data cache is usually organized as a hierarchy of more cache levels (L1, L2, etc.; see Multi-level caches).

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12 x 32 kB
L2 Cache
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L2 Cache

A CPU cache is a cache used by the central processing unit of a computer to reduce the average time to access memory. The cache is a smaller, faster memory which stores copies of the data from the most frequently used main memory locations. As long as most memory accesses are cached memory locations, the average latency of memory accesses will be closer to the cache latency than to the latency of main memory.

When the processor needs to read from or write to a location in main memory, it first checks whether a copy of that data is in the cache. If so, the processor immediately reads from or writes to the cache, which is much faster than reading from or writing to main memory.

Most modern desktop and server CPUs have at least three independent caches: an instruction cache to speed up executable instruction fetch, a data cache to speed up data fetch and store, and a translation lookaside buffer (TLB) used to speed up virtual-to-physical address translation for both executable instructions and data. Data cache is usually organized as a hierarchy of more cache levels (L1, L2, etc.; see Multi-level caches).

More information...

6 x 256 kB
L3 Cache
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L3 Cache

Another issue is the fundamental tradeoff between cache latency and hit rate. Larger caches have better hit rates but longer latency. To address this tradeoff, many computers use multiple levels of cache, with small fast caches backed up by larger slower caches.

Multi-level caches generally operate by checking the smallest Level 1 (L1) cache first; if it hits, the processor proceeds at high speed. If the smaller cache misses, the next larger cache (L2) is checked, and so on, before external memory is checked.

As the latency difference between main memory and the fastest cache has become larger, some processors have begun to utilize as many as three levels of on-chip cache.

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15 MB
Multiplier Unlocked
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Multiplier Unlocked

CPU locking is the process of permanently setting a CPU's clock multiplier. AMD CPUs are unlocked in early editions of a model and locked in later editions, but nearly all Intel CPUs are locked and recent models are very resistant to unlocking to prevent overclocking by users.

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Yes
PCI express version (max.)
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PCI express version (max.)

PCI Express (Peripheral Component Interconnect Express), officially abbreviated as PCIe, is a computer expansion card standard designed to replace the older PCI, PCI-X, and AGP bus standards. PCIe has numerous improvements over the aforementioned bus standards, including higher maximum system bus throughput, lower I/O pin count and smaller physical footprint, better performance-scaling for bus devices, a more detailed error detection and reporting mechanism, and native hot-plug functionality. More recent revisions of the PCIe standard support hardware I/O virtualization.

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3
Packaging type
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Packaging type

Packaging is the science, art and technology of enclosing or protecting products for distribution, storage, sale, and use.

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Cardboard box
i

Cardboard box

Cardboard boxes are industrially prefabricated boxes, primarily used for packaging goods and materials. Specialists in industry seldom use the term cardboard because it does not denote a specific material.

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Intel Technologies

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Intel Technologies

Various technologies from Intel, which increase the efficiency of the processor.

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Intel Turbo Boost Technology
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Intel Turbo Boost Technology

Intel® Turbo Boost Technology is one of the many exciting new features that Intel has built into latest-generation Intel® microarchitecture (codenamed Nehalem). It automatically allows processor cores to run faster than the base operating frequency if it's operating below power, current, and temperature specification limits.

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Yes
Intel Hyper-Threading
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Intel Hyper-Threading

Today's Intel® Hyper-Threading Technology (Intel® HT Technology) delivers thread-level parallelism on each processor resulting in more efficient use of processor resources—higher processing throughput—and improved performance on the multi-threaded software of today and tomorrow.

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Yes
Intel Virtualization Technology (VT-x)
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Intel Virtualization Technology (VT-x)

Increasing manageability, security, and flexibility in IT environments, virtualization technologies like hardware-assisted Intel® Virtualization Technology (Intel® VT) combined with software-based virtualization solutions provide maximum system utilization by consolidating multiple environments into a single server or PC. By abstracting the software away from the underlying hardware, a world of new usage models opens up that reduce costs, increase management efficiency, strengthen security, while making your computing infrastructure more resilient in the event of a disaster.

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Yes
Intel Virtualization Technology for Directed I/O (VT-d)
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Intel Virtualization Technology for Directed I/O (VT-d)

Intel® Virtualization Technology for Directed I/O (VT-d) extends Intel's Virtualization Technology (VT) roadmap by providing hardware assists for virtualization solution. VT-d continues from the existing support for IA-32 (VT-x) and Itanium® processor (VT-i) virtualization adding new support for I/O-device virtualization. Intel VT-d can help end users improve security and reliability of the systems and also improve performance of I/O devices in virtualized environment. These inherently helps IT managers reduce the overall total cost of ownership by reducing potential down time and increasing productive throughput by better utilization of the data center resources.

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Yes
Intel AES-NI
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Intel AES-NI

Intel® AES-NI is a new encryption instruction set that improves on the Advanced Encryption Standard (AES) algorithm and accelerates the encryption of data in the Intel® Xeon® processor family and the 2nd generation Intel® Core™ processor family.

Composed of seven new instructions, Intel® AES-NI delivers faster, more affordable data protection and greater security, making pervasive encryption possible in areas where it was previously unfeasible.

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Yes
Execute Disable Bit (XD bit)
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Execute Disable Bit (XD bit)

Execute Disable Bit is a hardware-based security feature that can reduce exposure to viruses and malicious-code attacks and prevent harmful software from executing and propagating on the server or network. Help protect your customers' business assets and reduce the need for costly virus-related repairs by building systems with built-in Intel Execute Disable Bit.

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Yes
Intel SpeedStep Version
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Intel SpeedStep Version

SpeedStep is a trademark for a series of dynamic frequency scaling technologies (including SpeedStep, SpeedStep II, and SpeedStep III) built into some Intel microprocessors that allow the clock speed of the processor to be dynamically changed by software. This allows the processor to meet the instantaneous performance needs of the operation being performed, while minimizing power draw and heat dissipation.

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2.10 (Enhanced SpeedStep)
MMX
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MMX

MMX is a single instruction, multiple data (SIMD) instruction set designed by Intel, introduced in 1996 with their P5-based Pentium line of microprocessors, designated as "Pentium with MMX Technology". It developed out of a similar unit introduced on the Intel i860, and earlier the Intel i750 video pixel processor. MMX is a processor supplementary capability that is supported on recent IA-32 processors by Intel and other vendors.

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Yes
SSE2
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SSE2

SSE2, Streaming SIMD Extensions 2, is one of the Intel SIMD (Single Instruction, Multiple Data) processor supplementary instruction sets first introduced by Intel with the initial version of the Pentium 4 in 2001. It extends the earlier SSE instruction set, and is intended to fully supplant MMX. Intel extended SSE2 to create SSE3 in 2004. SSE2 added 144 new instructions to SSE, which has 70 instructions. Rival chip-maker AMD added support for SSE2 with the introduction of their Opteron and Athlon 64 ranges of AMD64 64-bit CPUs in 2003.

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Yes
SSE3
i

SSE3

SSE3, Streaming SIMD Extensions 3, also known by its Intel code name Prescott New Instructions (PNI), is the third iteration of the SSE instruction set for the IA-32 (x86) architecture. Intel introduced SSE3 in early 2004 with the Prescott revision of their Pentium 4 CPU. In April 2005, AMD introduced a subset of SSE3 in revision E (Venice and San Diego) of their Athlon 64 CPUs. The earlier SIMD instruction sets on the x86 platform, from oldest to newest, are MMX, 3DNow! (developed by AMD), SSE and SSE2.

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Yes
SSE4
i

SSE4

SSE4 (Streaming SIMD Extension 4) is a CPU instruction set used in the AMD K10 (K8L) and Intel Core microarchitecture.ntel SSE4 consists of 54 instructions. A subset consisting of 47 instructions, referred to as SSE4.1 in some Intel documentation, is available in Penryn. Additionally, SSE4.2, a second subset consisting of the 7 remaining instructions, is first available in Nehalem-based Core i7. Intel credits feedback from developers as playing an important role in the development of the instruction set.

AMD currently supports only 4 instructions from the SSE4 instruction set, but have also added four new SSE instructions, naming the group SSE4a. These instructions are not found in Intel's processors supporting SSE4.1 and alternatively AMD processors aren't supporting Intel's SSE4.1. Support was added for SSE4a for unaligned SSE load-operation instructions (which formerly required 16-byte alignment).

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Yes
SSSE3
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SSSE3

Supplemental Streaming SIMD Extensions 3 (SSSE3) is a SIMD instruction set created by Intel and is the fourth iteration of the SSE technology.
SSSE3 contains 16 new discrete instructions.
Each instruction can act on 64-bit MMX or 128-bit XMM registers. Therefore, Intel's materials refer to 32 new instructions.

More information...

Yes
AVX
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AVX

Advanced Vector Extensions (AVX) is an extension to the x86 instruction set architecture for microprocessors from Intel and AMD proposed by Intel in March 2008.
AVX provides new features, new instructions and a new coding scheme.
The width of the SIMD register file is increased from 128 bits to 256 bits, and renamed from XMM0–XMM15 to YMM0–YMM15. In processors with AVX support, the legacy SSE instructions (which previously operated on 128-bit XMM registers) now operate on the lower 128 bits of the YMM registers.

More information...

Yes

Delivery contents

i

Delivery contents

The scope of delivery means the included accessories.

Delivery contents
ohne CPU-Kühler

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Warranty & right to return

Dead on arrival (DOA) 30 Days Bring-in

Warranty 36 month Bring-in

Limited right of return

Warranty and return

Please use our simplified returns and warranty process to return a product or register a warranty case. Returns and warranty

Please use our simplified warranty process to view the warranty period as well as any warranty extensions you may have purchased. This will ensure that your return or warranty case is processed quickly and effectively.

Warranty extension

Warranty extension Bring-in

Warranty extension Bring-in

The warranty is extended at the same conditions as the manufacturer warranty.

to 5 years CHF 82.80

More information about warranty extensions

Availability

Mail delivery

 more than 10 item(s) ready for delivery from our warehouse
Expected delivery date: Tuesday 13.12.2016 if ordered by Monday 17:00.

Collection

Basel

 Ready for collection today at 13:10 if ordered by today 07:20
> 10 item(s) at our central warehouse

Bern

 Ready for collection today at 12:45 if ordered by today 05:45
> 10 item(s) at our central warehouse

Dietikon

 Ready for collection today at 14:30 if ordered by today 08:45
> 10 item(s) at our central warehouse

Kriens

 Ready for collection today at 11:20 if ordered by today 06:45
> 10 item(s) at our central warehouse

Lausanne

 Ready for collection today at 15:40 if ordered by today 05:45
> 10 item(s) at our central warehouse

St Gallen

 Ready for collection today at 15:30 if ordered by today 08:10
> 10 item(s) at our central warehouse

Winterthur

 Ready for collection today at 13:30 if ordered by today 08:10
> 10 item(s) at our central warehouse

Wohlen

 more than 10 piece(s) ready for pick up
Ready for pickup immediately after ordering.

Zurich

 Ready for collection today at 12:30 if ordered by today 05:55
> 10 item(s) at our central warehouse

PickMup

 more than 10 item(s) ready for delivery from our warehouse
Expected delivery date: Tuesday 13.12.2016 if ordered by Monday 17:00. What is PickMup?

If ordered immediately.
Information subject to change.

Customer questions and answersShow all questions

The 3 most helpful customer questions

User braunovic

Funktioniert dieser Prozessor da er von der 6. Gen ist auf 2011-V3 Mainboard wo für die 5. Gen konzipiert ist?

15.11.2016
1 answer
User felix.egger33
Accepted answer

Jah aber es ist sehr warscheinlich ein bios update nötig.

15.11.2016
User heeb-ramon

Kann ich diese CPU auf 4.6GHz übertakten wenn ich volgende komponenten benütze? (2x Radiatoren)
https://www.digitec.ch/de/ShopList/Show?shopListId=03AD3926EDE4C75C5CBA1B5DA832DF87

30.11.2016
1 answer

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Customer ratingsShow all ratings

Overall rating

(3)
Avg. 4.3 of 5 stars

The 3 most useful ratings

User DI264370
Core i7 6850K (LGA 2011-v3, 3.60GHz, Unlocked)

Kann ich nur empfehlen...

Absolute Kaufempfehlung!


Super schnell
Übertaktbar
Wird nicht so heiss
6 Kerne
Preis Leistungsverhältnis sehr gut

08.07.2016
0 Comments
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User hardware1
Core i7 6850K (LGA 2011-v3, 3.60GHz, Unlocked)

Ein Performance-Gewinn der sich nur bei langen Simulationen bemerkbar macht.

Der Core I7 6850K ersetzt nun den Core I7 5930K.
Erwartungsgemäss fiel der Gewinn an Leistung moderat aus.
Der Prozessor ist damit etwa 16% (lt. CPUz) schneller wie der Vorgänger (bei 4GHz).
Die CPU + GPU werden für wissenschaftl. Simulationen eingesetzt.


läuft stabil
hat thermisch noch reserven (CPU 37 Grad C, VRM 51 Grad C)
höhere Bandbreite
höhere Taktraten
nur wenig schneller als ein I7 5930K
Preis

12.08.2016
0 Comments
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User selina81
Core i7 6850K (LGA 2011-v3, 3.60GHz, Unlocked)

Super Prozessor

Super Prozzi,rennt, und rennt,und bleibt kühl dank der neuen Technologie


Kühler als die Hashwell-E
Gut übertaktbar
Preis

29.06.2016
0 Comments
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Intel Core i7 6850K (LGA 2011-v3, 3.60GHz, Unlocked) Intel Core i7 6850K (LGA 2011-v3, 3.60GHz, Unlocked)