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NV's GP107-400 corresponds to the GeForce GTX 1050Ti
GeForce GTX 1050 1050Ti adopts the new 16nm process Pascal architecture, the core code is GP107, the specific model is GP107-400 The core area is about 132 square millimeters, thanks to the advantages of the 14nm process, 3.3 billion transistors are integrated in the core, which is double the number of GTX 960 transistors, but the core area is only GTX 960.
The total computing resources of the GP107-400 chip based on the Pascal architecture are 768 ALUs, and the GP107-300 is 640, which is 128 less than that of the GP107-400. The GP107-400 has 48 TMUs and 32 ROPS on the backend, while the GP107-300 has the same number of ROPS, but 8 fewer TMUs; Two dual-channel memory controllers with a bandwidth of 64 bits make up a total of 128 bits of memory control unit, with a size of 4 GB and 1050Ti, respectively, and a memory bandwidth of 112 GB and 1050 Ti, respectively, and a GTX 1050 of 112 GB s.
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The core code name has been erased, and an A1 can be faintly seen under the chip, this line is the core code name, and only this can reveal what kind of core this is. The words 18B2B A1 and other words on it are the chip serial number, internal identification code, factory date (11 years 06 weeks), etc., and the specific model cannot be determined.
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This is the size of the CPU, the rate is the same, one is the size of the one-time processing, the other is the speed of processing, the graphics card has little impact on the program, but the graphics card determines the quality of the display, the effect of processing the image quality, the motherboard chipset is to organically combine your processor, hard disk, graphics card, etc. to deal with the problems during the combination A good motherboard can give full play to the overall performance.
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The large semi-circular fan in the upper right corner, and the graphics card below. The problem is that I didn't find the cpu. Normally, the CPU will be placed in the center of the motherboard, and the box on the top of the optical drive, the one with three screw holes, looks very similar to the fan rack of the CPU.
But to be honest, I really haven't disassembled an ASUS laptop, but it's basically the same. It's also possible that the graphics card location I'm talking about is the CPU. It's just that normally, the graphics card and CPU will be equipped with fans, I don't know what the specific situation of your board is?
The bottom of the big picture fan may also be the CPU.。。 If it is, then the graphics card is a single chip, and the picture is not clear.
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On the other side of your board. What do you want to see in this way? What do you suspect is wrong?
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The performance of the main display chip directly determines the performance of the graphics card. Different display chips, both in terms of internal structure and performance, are different, and their differences are also very large. The position of the graphics chip in the graphics card is equivalent to the position of the CPU in the computer, which is the core of the entire graphics card.
Because of the complexity of display chips, there are only two manufacturers that design and manufacture display chips: NVIDIA and ATI. SIS, VIA and other companies all produce integrated graphics chips. Home entertainment graphics cards all use a single-chip design of the graphics chip, while some professional workstation graphics cards use a combination of multiple display chips.
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Chip model? N card high-end GTX200 series The core is the G200 mid-range 9800GT GTS250 core is the G92 low-end 9600GT below The core is the G94 G96 G98A card high-end 5800 series The core is the RV 870 mid-range 5770 5750 The core is the RV 840 4870 4850 The core is the RV 770 low-end HD 4670 The core is the RV 730
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ASUS MARS GTX295 Detailed Parameters Basic Parameters Model Prize Error Correction Mars GTX295 2DI 4GD3 Chip Factory Prize Error Correction NVIDIA Chip Model Prize Error Correction NVIDIA GeForce GTX 295 GPU Chip Prize Error Correction NVIDIA GTX 200 Series Chip Code Name Prize Error Correction GT200 Production Process Reward Error Correction Core Bit Width Reward Error Correction 256bit Performance Parameter Video Memory Capacity Prize Error Correction 4096M Video memory type: Rewarded error correction GDDR 3 Video memory bit width: Rewarded error correction 1024bit Video memory speed: Rewarded error correction Video memory encapsulation MicroBGGA FBGA core frequency rewarded error correction 648MHz Video memory frequency rewarded error correction 2000MHz Stream processor frequency rewarded error correction 1476MHz Stream processor unit rewarded error correction 480 3D API rewarded error correction Support DirectX 10 RAMDAC frequency rewarded error correction Support 400MHz Support Max Resolution Reward Error Correction 2560 1600 Heat Cooling Description Reward Error Correction Turbofan Features Reward Error Correction Support NVIDIA SLI Other Performance Reward Error Correction PureVideo HD ZOTAC GTX295 Ice Armor Specifications I want to find faults, win points, and win the big prize Basic Parameters Chip Factory Reward Error Correction NVIDIA Chip Model Reward Error Correction NVIDIA GeForce GTX 295 GPU Chip Reward Error Correction NVIDIA GTX 200 Series Chip Code: Rewarded Error Correction GT200 Manufacturing Process: Rewarded Error Correction Core Bit Width: Rewarded Error Correction 256bit Graphics Card Interface: Standard Rewarded Error Correction Support PCI Express Output Interface: Rewarded Error Correction 2 DVI-I Interface, 1 HDMI Interface, Performance Parameters, Video Memory Capacity, Rewarded Error Correction: 2 896M Video Memory Type: Rewarded Error Correction, GDDR 3, Video Memory Bit Width, Rewarded Error Correction, 896bit Video Memory Package, Rewarded Error Correction, MicroBGGA FBGA Core Frequency, Rewarded Error Correction, 675MHz Video memory frequency with prize error correction 2100MHz stream processor frequency with prize error correction 1242MHz number of stream processors with prize error correction 2 240 3D API with prize error correction Support DirectX 10 RAMDAC frequency with prize error correction Support 400MHz Support Max resolution with prize error correction 2560 1600 Other parameters heat dissipation description with prize error correction Water cooling heat dissipation Power interface with prize error correction 6 pin+8 pin Features with prize error correction Support NVIDIA SLI Other performance is rewarded with error correction weight.
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The question you're asking is quite complex, and if you start with the previous platform, you'll be broken.
As far as current platforms are concerned, many CPUs have integrated core graphics, and motherboards for these CPUs do not have onboard graphics.
So your first question, if the CPU integrates the graphics card, the motherboard it is paired with must not have an onboard graphics card, such as G530 and H61
The motherboard has an output, if G530 with P67 wants to integrate the output of the display, there is no way to achieve it, you can only replace the motherboard with output like H61.
The second problem is even simpler, such as the previous mainstream 880G motherboard or Intel's G41 motherboard, these are all with onboard graphics cards, but the Athlon U 240 640 WhatsMiner or E5700 E5800 WhatsMiner U are not with a core display. In fact, the manufacturer also takes this problem into account, so in order to avoid problems, either the CPU integrates the core display, and the motherboard it matches does not have an onboard graphics card.
Either the other way around, there will be no CPU with a core display, and the board will also have a core display.
Question 3.
If the CPU is not with a core display, and the board is with an onboard graphics card, in this case, if you use a separate graphics card, it is generally the onboard graphics card is directly shielded, of course, such as AMD880G motherboard, in fact, it can be exchanged with some low-end graphics cards, which is of little practical significance, but it also shows that the two can coexist. However, the previous onboard graphics card platform is generally shielded.
This involves another problem,CPU with core display,The platform has a separate display,In fact, there is a product that is very common,It is a notebook,You can look at the hardware of the independent display book,The core display and the independent display are coexisting,And the two will be intelligently adjusted。 Of course, if you don't want to core the graphics output, you can turn it off in the motherboard BIOS.
In addition, for example, AMD's current APU platform, because it can be exchanged with some A cards, both coexist and are shared. You can turn off the GPU in the BIOS to let the GPU output independently, or you can turn on the fusion of the GPU and the GPU to improve performance.
Of course, your third question is generally the case, such as Intel's SNB or IVY platform.
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Regarding your question, it is as follows:
Take Intel as an example, most of the I series processors have integrated GPUs, and the motherboards that can install this kind of CPU are mainly 5 series 6 series (take HM55 as an example), this kind of motherboard supports the integrated graphics card inside the CPU, so although there is no integrated graphics card on the motherboard, there is still an integrated VGA or DVI or even HDMI interface, which can be directly connected to the display with the corresponding display interface, and the computer can work normally.
The working principle of the CPU integrated graphics card is the same as that of the original Southbridge integrated graphics card. It's just that the location has changed, from the original south bridge to the CPU.
As soon as a discrete graphics card is plugged into any motherboard, the integrated graphics card function will be automatically turned off.
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1.If your purpose is to display the output, the motherboard can be replaced without changing it, and the display will be displayed. Otherwise, change the motherboard. There is no point in changing CPUs.
2.This is not the case for the time being.
3.The question is not complicated, but you complicate it. The onboard GPU is called "integrated graphics"; The CPU integrated GPU is called "core graphics".
The integrated graphics card can be automatically blocked after the independent graphics card is installed; In addition to the same as above, there is also the possibility that the core display and the independent display can be used at the same time.
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The memory memory frequency is the frequency at which the graphics card is working on the graphics card by default, measured in MHz (megahertz). To a certain extent, the frequency of the video memory reflects the speed of the video memory. The frequency of video memory varies with the type and performance of video memory, and the frequency of video memory that can be provided by different video memory is also very different, mainly 400MHz, 500MHz, 600MHz, 650MHz, etc., and 800MHz, 1200MHz, 1600MHz, or even higher in high-end products.
With the same video memory, hardcore gamers improve the performance of their graphics cards by overclocking.
The chipset is the core component of the motherboard, which is connected to the operation of the CPU and other peripheral devices. If the CPU is the heart of the entire computer system, then the chipset will be the torso of the entire body. The cores of the motherboard chipset determine all the functions of the motherboard, including the type of CPU, the system bus frequency of the motherboard, the memory type, capacity and performance, and the specifications of the graphics card slot are determined by the northbridge chip in the chipset; The type and number of expansion slots, the type and number of expansion interfaces (e.g., IEEE1394, serial port, parallel port, VGA output interface of notebook), etc., are determined by the south bridge of the chipset.
There are also some chipsets that incorporate functions such as 3D accelerated display (integrated display chip) and AC 97 sound decoding, which also determine the display performance and audio performance of the computer system. The current chipset evolved from the so-called VLSI in the past 286 era: gate array control chips.
The classification of chipsets can be divided into server workstations, desktops, notebooks and other types according to the number of chips, and can be divided into single-chip chipsets, standard south and north bridge chipsets and multi-chip chipsets (mainly used for high-end server workstations), according to the degree of integration, can also be divided into integrated chipsets and non-integrated chipsets, etc.
It provides CPU support, memory management function, system cache support, and IO support, which greatly improves the reliability of the system chip, reduces failures, and reduces production costs.
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The speed at which the graphics card processes data is the speed at which data is exchanged with the GPU, the unit is ns or MHz, 1ns=1000 1MHz, the faster the frequency of the video memory, the more channels there are, the larger the amount of data that can be processed at the same time, and the better the performance of the graphics card.
Memory bandwidth: Memory bandwidth is one of the indicators to measure the data transmission rate between the display family chip and the video memory. With the same frequency, the performance of the graphics card with higher bandwidth will also be better.
Stream Processor: The stream processor is the pixel rendering pipeline Dan Sui Song and the vertex shading unit, also called the SP unit, the role is to process the data transmitted by the CPU, and after processing, it is converted into a digital signal that can be recognized by the display, of course, the higher the stream processor, the better.
Uh-huh. Landlord.
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In layman's terms, it is.
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Upstairs copy ignored. Here's what I typed myself.
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Bit width is the width of the data exchanged between the core of the graphics card and the video memory, but the bit width and height do not necessarily determine the speed of the data exchange between the graphics card and the video memory, but also determine the frequency and speed of the video memory. Let's use the road and gas car as an analogy, the width of the bit is the width of your highway, the memory frequency is the speed of each gas car you pass, if you are on the road no matter how big, the speed is very slow, the width is useless, on the other hand, if the graphics card performance is strong and the position is wide, but the speed of the car is very slow, it will also affect the performance. Therefore, the choice of graphics card depends on the overall parameters, such as the core performance of the graphics card, and then considers the bit width and memory frequency and the capacity of the video memory.
The main thing is chip and bit width, and then capacity.
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