Intel Xeon Bronze 3106
Intel Core i7-5820K
Comparision Intel Xeon Bronze 3106 vs Intel Core i7-5820K
Grade
Intel Xeon Bronze 3106
Intel Core i7-5820K
Test results
1
1
Technology
4
6
Performance
3
4
Memory specification
4
4
Interfaces and communications
3
5
Main characteristics
6
4
Top specs and features
Passmark test
Intel Xeon Bronze 3106: 7069
Intel Core i7-5820K: 9441
Power Consumption (TDP)
Intel Xeon Bronze 3106: 85 W
Intel Core i7-5820K: 140 W
Technological process
Intel Xeon Bronze 3106: 14 nm
Intel Core i7-5820K: 22 nm
Number of transistors
Intel Xeon Bronze 3106: 8000 million
Intel Core i7-5820K: 2600 million
L1 cache size
Intel Xeon Bronze 3106: 64 KB
Intel Core i7-5820K: 192 KB
Description
The Intel Xeon Bronze 3106 processor runs at 1.7 Hz, the other Intel Core i7-5820K runs at 3.3 Hz. Intel Xeon Bronze 3106 is able to accelerate to 3 Hz , and the second to 3.6 Hz. The maximum power consumption for the first processor is 85 W, and for Intel Core i7-5820K 140 W.
In terms of architecture, Intel Xeon Bronze 3106 is built using 14 nm technology. Intel Core i7-5820K on the 22 nm architecture.
Relative to processor memory. Intel Xeon Bronze 3106 can support DDR4. The maximum supported size is 768 MB. It should be noted that the maximum memory bandwidth is There is no data. The second processor Intel Core i7-5820K is capable of supporting DDR4. The throughput is 68. And the maximum amount of supported RAM is 64 MB.
Graphics. Intel Xeon Bronze 3106 has a graphics engine There is no data. The frequency of which is - There is no data MHz. Intel Core i7-5820K received video core There is no data. Here the frequency is There is no data MHz.
How processors perform in benchmarks. In the PassMark benchmark, Intel Xeon Bronze 3106 scored 7069. And Intel Core i7-5820K scored 9441 points.
Why Intel Core i7-5820K is better than Intel Xeon Bronze 3106
- Power Consumption (TDP) 85 W против 140 W, less by -39%
- Technological process 14 nm против 22 nm, less by -36%
- Number of transistors 8000 million против 2600 million, more on 208%
- L2 cache size 8 MB против 1.5 MB, more on 433%
Intel Xeon Bronze 3106 vs Intel Core i7-5820K: highlights
Intel Xeon Bronze 3106
Intel Core i7-5820K
Test results
Passmark test
The PassMark test considers read speed, write speed, and seek time when testing SSD performance.
7069
Average: 6033.5
9441
Average: 6033.5
Technology
AES
Commands designed to speed up encryption and decryption operations using the AES algorithm. They allow processors to process data faster and more efficiently, improving the performance of cryptographic operations. This is especially useful in security systems, network communications and data storage.
Show more
Available
Available
Support for Intel Optane memory
A memory technology and type developed by Intel that combines the benefits of fast flash memory with the high capacity of a hard drive.
Not available
There is no data
Intel Trusted Execution Technology
A technology that protects the system from malicious software and unauthorized access.
Available
Not available
Supports hardware virtualization technology
Hardware virtualization makes it much easier to get high quality images.
Available
Available
Performance
Number of threads
The more threads, the higher the performance of the processor will be, and it will be able to perform several tasks at the same time.
8
Average: 10.7
12
Average: 10.7
L1 cache size
large amount of L1 memory accelerates results in the CPU and system performance settings
64 KB
Average: 299.3 KB
192 KB
Average: 299.3 KB
L2 cache size
An L2 cache with a large amount of scratchpad memory allows you to increase the speed of the processor and the overall performance of the system.
8 MB
Average: 4.5 MB
1.5 MB
Average: 4.5 MB
L3 cache size
A large amount of L3 memory accelerates results in the CPU and system performance settings
11 MB
Average: 16.3 MB
15 MB
Average: 16.3 MB
Maximum processor frequency
When the processor's speed drops below its limit, it can jump to a higher clock speed to improve performance.
3 GHz
Average: 3.2 GHz
3.6 GHz
Average: 3.2 GHz
Number of Cores
The number of cores in processors indicates the number of independent computing units that can execute tasks in parallel. More cores allow the processor to handle more tasks at once, which improves overall performance and the ability to handle multi-threaded applications.
Show more
8
Average: 5.8
6
Average: 5.8
CPU base clock speed
1.7 GHz
Average: 2.5 GHz
3.3 GHz
Average: 2.5 GHz
Number of UPI channels
The number of communication links for data transfer between multiple processors. More UPI links provide higher throughput and ability to transfer data between processors, which can improve performance and scalability in multi-core systems.
Show more
2
Average: 2.9
Average: 2.9
Maximum memory speed
2133 MHz
Average: 2720 MHz
MHz
Average: 2720 MHz
Max. number of PCI Express lanes
The more channels, the greater the bandwidth and the possibility of data transfer between the components of the system. This affects the speed and performance of connected devices such as graphics cards or network adapters.
Show more
48
Average: 22.7
28
Average: 22.7
Multiplier unlocked
Some processors have an unlocked multiplier, thanks to which they work faster and improve the quality in games and other applications.
Not available
Available
Turbo Boost Max 3.0
Not available
There is no data
Number of PCI-Express Lines
48
28
RAM types
Various versions of DDR, such as DDR2, DDR3, DDR4, and DDR5, offer improved features and performance over previous versions, allowing you to work more efficiently with data and improve overall system performance.
Show more
4
Average: 3.5
4
Average: 3.5
Memory specification
Memory frequency
RAM may be faster to increase system performance.
2133 MHz
Average: 2106.2 MHz
2133 MHz
Average: 2106.2 MHz
Max. number of memory channels
The more their number, the higher the data transfer rate from memory to processor
6
Average: 2.9
4
Average: 2.9
Max. Memory
The largest amount of RAM memory.
768 GB
Average: 404.4 GB
64 GB
Average: 404.4 GB
ECC memory support
The memory debugging code is used when it is necessary to avoid data corruption during scientific computing or server startup. It finds possible errors and repairs data corruption.
Show more
Available
Not available
Interfaces and communications
vPro
set of technologies to improve the security and manageability of business computers.
Available
Not available
Enhanced SpeedStep (EIST)
technology in Intel processors that dynamically adjusts clock speed and voltage to optimize power consumption and performance.
Available
Available
Intel® AES-NI Commands
AES is needed to speed up encryption and decryption.
Available
Available
Has f16c
The F16C lets you speed up tasks like adjusting the volume or adjusting the contrast.
Available
Available
Has avx
AVX allows you to increase the speed of calculations in multimedia, financial and scientific applications, and it also improves the performance of Linux RAID.
Show more
Available
Available
Has mmx
MMX is needed to speed up tasks such as adjusting the volume and adjusting the contrast.
Available
Available
Has fma3
FMA3 is needed to speed up tasks such as adjusting photo contrast or adjusting sound.
Available
Available
Socket
Connector on the motherboard for installing the processor.
FCLGA3647
FCLGA2011-3
Speed Shift
technology that allows the processor to dynamically adjust its clock speed to optimize performance and power consumption.
Available
There is no data
TSX
A technology for efficiently synchronizing threads of execution through the use of transactional memory.
Available
There is no data
TXT
A technology for creating a secure and isolated runtime environment that protects your system and data from malware and attacks.
Available
Available
EDB
technology used in processors to improve system security. It prevents malicious code from executing by blocking its execution in memory and protecting the computer from attacks such as buffer overflow attacks. EDB helps prevent the introduction and spread of malicious software, providing better data and system protection.
Show more
Available
Available
EPT
Memory virtualization technology used in Intel processors. It provides the ability to efficiently manage and access virtual memory. EPT allows virtual machines to access physical memory directly, minimizing the latency and overhead of translating virtual addresses into physical ones. In this way, EPT improves the performance and efficiency of virtualization, simplifies memory management, and provides better isolation between virtual machines.
Show more
Available
Available
uses multithreading
The ability to handle multiple tasks at the same time to improve productivity.
Not available
Available
Main characteristics
Technological process
The small size of semiconductors means that this is a new generation chip.
14 nm
Average: 36.8 nm
22 nm
Average: 36.8 nm
Number of transistors
The higher their number, the more processor power this indicates.
8000 million
Average: 1517.3 million
2600 million
Average: 1517.3 million
Power Consumption (TDP)
The heat dissipation requirement (TDP) is the maximum amount of energy that can be dissipated by the cooling system. The lower the TDP, the less power will be consumed.
Show more
85 W
Average: 67.6 W
140 W
Average: 67.6 W
PCI Express Edition
High-speed bus for connecting peripherals to a computer. Different versions determine the data transfer rate, and the number (x1, x4, x8, x16) indicates the number of logical lines for data transfer and determines the throughput and capabilities of the devices.
Show more
3
Average: 2.9
3
Average: 2.9
Embedded options available
Available
Not available
Supports 64-bit system
64-bit system, unlike a 32-bit one, can support more than 4 GB of RAM. This increases productivity. It also allows you to run 64-bit applications.
Available
Available
Maximum temperature for processors
If the maximum temperature at which the processor operates is exceeded, a reset may occur.
77 °C
Average: 96 °C
67 °C
Average: 96 °C
Height
56.5 mm
Average: 47.1 mm
mm
Average: 47.1 mm
Width
76 mm
Average: 49.1 mm
mm
Average: 49.1 mm
Architecture codename
Skylake
Haswell E
Maximum Case Temperature (TCase)
Maximum allowable processor case temperature
77 °C
Average: 75.1 °C
66.8 °C
Average: 75.1 °C
Appointment
Server
Desktop
Series
Intel Xeon Bronze
There is no data
FAQ
Can Intel Xeon Bronze 3106 and Intel Core i7-5820K work in 4K mode?
Intel Xeon Bronze 3106 - There is no data. Intel Core i7-5820K - There is no data.
How many PCIe lanes
Intel Xeon Bronze 3106 - 48. Intel Core i7-5820K - 28.
How much RAM does it support?
Intel Xeon Bronze 3106 supports 768 GB. Intel Core i7-5820K supports 64GB.
How fast are the processors?
Intel Xeon Bronze 3106 operates on 1.7 GHz.3 GHz.
How many cores does the processor have?
Intel Xeon Bronze 3106 has 8 cores. Intel Core i7-5820K has 6 cores.
Do processors support ECC memory?
Intel Xeon Bronze 3106 - has. Intel Core i7-5820K - doesn't have.
Does Intel Xeon Bronze 3106 have embedded graphics?
Intel Xeon Bronze 3106 - There is no data. Intel Core i7-5820K - There is no data
What kind of RAM is supported
Intel Xeon Bronze 3106 supports DDR4. Intel Core i7-5820K supports DDR4.
What is the socket of the processors?
Using FCLGA3647 to set Intel Xeon Bronze 3106. FCLGA2011-3 is used to set Intel Core i7-5820K.
What architecture do they use?
Intel Xeon Bronze 3106 is built on the Skylake architecture. Intel Core i7-5820K is built on the Haswell E architecture.
Is the Intel Xeon Bronze 3106 CPU multiplier unlocked?
Intel Xeon Bronze 3106 - doesn't have. Intel Core i7-5820K - has.
How do processors perform in benchmarks?
According to PassMark, Intel Xeon Bronze 3106 scored 7069 points. Intel Core i7-5820K scored 9441 points.
What is the maximum frequency of processors?
Intel Xeon Bronze 3106 has a maximum frequency of 3 Hz. The maximum frequency of Intel Core i7-5820K reaches 3.6 Hz.
How much energy do they consume?
The power consumption of Intel Xeon Bronze 3106 can be up to 85 Watts. Intel Core i7-5820K has up to 85 Watts.
