Seleccione el procesador 1
Seleccione el procesador 2
GIGABYTE Radeon VII HBM2 16G
Sapphire Pulse Radeon RX 6800 XT

GIGABYTE Radeon VII HBM2 16G contra Sapphire Pulse Radeon RX 6800 XT. Especificaciones, rendimiento, pruebas

Puntuación global
star star star star star
Liberado
Q1/2019
GIGABYTE Radeon VII HBM2 16G
GIGABYTE Radeon VII HBM2 16G
Liberado
Q1/2021
Puntuación global
star star star star star
Sapphire Pulse Radeon RX 6800 XT
Sapphire Pulse Radeon RX 6800 XT

Comparison of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT Now is the perfect time to figure out which graphics card delivers the highest performance, what sets them apart, and the reasons behind those differences.

In front of you is a detailed comparison between the GIGABYTE Radeon VII HBM2 16G and the Sapphire Pulse Radeon RX 6800 XT to assist you in selecting the best card for your needs, we will examine their specifications, benchmark scores, and overall performance, guiding you toward an informed decision.

Comparing the GIGABYTE Radeon VII HBM2 16G to the Sapphire Pulse Radeon RX 6800 XT analyzing performance in various popular benchmarks highlights the key differences between these models. By understanding the distinctions between these two cards, you’ll be able to choose the best option for your needs, whether you’re a gamer, content creator, or someone seeking pure processing power..

GIGABYTE Radeon VII HBM2 16G: boasts a maximum frequency of 1.400 GHz GHz + 6%. It is equipped with 16 GBGB of RAM. The memory type is HBM2. It was released in Q1/2019.

Sapphire Pulse Radeon RX 6800 XT: It has a maximum clock speed of 1.875 GHz+ 3 % GHz. It comes with 16 GBGB of memory. The memory type is GDDR6. Released in Q1 Q1/2021.

Diferencias

  • Lugar en la clasificación general

    (basado en varios puntos de referencia)

    749 left arrow score

Posiciones en todas las clasificaciones

Posiciones comunes GIGABYTE Radeon VII HBM2 16G GPU en benchmarks populares, para comparar con otros modelos.

  • FP32 Performance (Single-precision TFLOPS)
    875 place
  • Battlefield 5
    1059 place
  • Shadow of the Tomb Raider
    1061 place
  • Crypto-Mining Ethereum Hashrate (MH/s)
    169 place
  • Crypto-Mining Ergo Hashrate (MH/s)
    155 place
  • Crypto-Mining Ravencoin Hashrate (MH/s)
    545 place
  • 3DMark Benchmark
    1663 place
  • Crypto-Mining Vertcoin Hashrate (MH/s)
    305 place
  • Lugar en la clasificación general

    (basado en varios puntos de referencia)

    403 left arrow score
  • Mayor velocidad de reloj

    En 25% mejor velocidad de reloj

    1.875 GHz+ 3 % left arrow 1.400 GHz

Posiciones en todas las clasificaciones

Posiciones comunes Sapphire Pulse Radeon RX 6800 XT GPU en benchmarks populares, para comparar con otros modelos.

  • FP32 Performance (Single-precision TFLOPS)
    458 place
  • Battlefield 5
    369 place
  • Shadow of the Tomb Raider
    401 place
  • Crypto-Mining Ethereum Hashrate (MH/s)
    343 place
  • Crypto-Mining Ergo Hashrate (MH/s)
    727 place
  • Crypto-Mining Ravencoin Hashrate (MH/s)
    470 place
  • 3DMark Benchmark
    373 place
  • Crypto-Mining Vertcoin Hashrate (MH/s)
    321 place

Especificaciones

Datos técnicos
GIGABYTE Radeon VII HBM2 16G GIGABYTE Radeon VII HBM2 16G
Sapphire Pulse Radeon RX 6800 XT Sapphire Pulse Radeon RX 6800 XT
General Information

This section provides a detailed comparison of the fundamental technical specifications of the graphics cards GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It provides essential details like the GPU architecture, the number of processing units, and other key features that significantly influence the overall performance of the cards across different applications, including gaming and professional tasks..

  • Basado en
    AMD Radeon VII left arrow AMD Radeon RX 6800 XT
  • Chip GPU
    Vega 20 XT left arrow Navi 21 XT
  • Unidades de ejecución
    60 left arrow 72
  • Shader
    3840 left arrow 4608
  • Unidades de salida de renderizado
    64 left arrow 128
  • Unidades de textura
    240 left arrow 288
Memory Configuration

This section provides a comparison of the memory configurations of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It includes details such as the memory size, type (e.g., GDDR6, HBM2), and bandwidth, which are key factors that determine how efficiently the card handles large textures, data sets, and high-resolution tasks.Larger memory sizes are typically beneficial for demanding applications like 4K gaming and video editing.

  • Tamaño de la memoria
    16 GB left arrow 16 GB
  • Tipo de memoria
    HBM2 left arrow GDDR6
  • Velocidad de la memoria
    1 GHz left arrow 2 GHz
  • Banda de memoria con
    1024 GB/s left arrow 512 GB/s
  • Interfaz de memoria
    4096 bit left arrow 256 bit
Frecuencia del reloj

This section focuses on comparing the clock speeds of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It covers both the base and boost clock speeds, which have a direct impact on GPU performance during demanding tasks. Higher clock speeds generally result in smoother frame rates in games and faster processing in compute-intensive applications..

  • Frecuencia base
    1.400 GHz left arrow 1.875 GHz+ 3 %
  • Frecuencia máxima
    1.750 GHz left arrow 2.310 GHz+ 3 %
  • Avg (Game) Clock
    left arrow 2.065 GHz+ 2 %
  • Overclocking
    left arrow
Consumo de energía

This section examines the thermal design of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It provides information on power consumption (in watts) and thermal output during normal use and overclocking. Effective thermal management is crucial for ensuring stable performance during extended gaming sessions or other intensive tasks..

  • TDP
    300 W left arrow 300 W
  • TDP (up)
    -- left arrow 345 W
  • Tjunction max
    -- left arrow 96 °C
  • PCIe-Power
    2 x 8-Pin left arrow 2 x 8-Pin
Cooling System

This section compares the cooling systems of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It includes details about the types of coolers (e.g., blower or open-air) and the number and size of fans, which play a crucial role in maintaining optimal temperatures during operation.Effective cooling is essential for preventing thermal throttling and extending the longevity of the GPU.

  • Tipo de ventilador
    Axial left arrow Axial
  • Tipo de refrigerador
    Air cooling left arrow Air cooling
  • Ventilador 1
    3 x 75 mm left arrow 3 x 90 mm
  • Noise (Idle)
    32 dB left arrow 0 dB / Silent
  • Ventilador 2
    -- left arrow --
  • Noise (Load)
    52 dB left arrow 36-37 dB
Interfaces

This section compares the connectivity options available on GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. This includes details on the number and types of ports, such as HDMI, DisplayPort, and others, which are crucial for connecting monitors and external devices..This information assists in identifying which card provides more flexible or up-to-date connectivity features..

  • Max. Muestra
    4 left arrow 4
  • Versión HDCP
    2.2 left arrow 2.3
  • Puertos HDMI
    1x HDMI v2.0b left arrow 1x HDMI v2.1
  • DP Ports
    3x DP v1.4a left arrow 3x DP v1.4a
  • Puertos DVI
    -- left arrow --
  • VGA Ports
    -- left arrow --
  • USB-C Ports
    -- left arrow --
Technical Specifications

This section compares the technical specifications of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It highlights key features such as API support for DirectX, OpenGL, and Vulkan, which are crucial for running modern games and applications efficiently.These specifications ensure compatibility and optimal performance across a wide range of software environments.

  • Resolución máxima
    7680x4320 left arrow 7680x4320
  • DirectX
    12_1 left arrow 12_2
  • Raytracing
    No left arrow
  • DLSS / FSR
    No left arrow No
  • LED
    Non addressable LED left arrow Addressable LED
Códecs de vídeo compatibles

This section compares the support for video codecs on GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It highlights the built-in capabilities for compressing and decompressing video formats such as H.264, H.265 (HEVC), and VP9, which are important for tasks like video editing and streaming.

  • h264
    Decode / Encode left arrow Decode / Encode
  • VP8
    Decode left arrow Decode / Encode
  • h265 / HEVC
    Decode / Encode left arrow Decode / Encode
  • VP9
    Decode / Encode left arrow Decode / Encode
  • AV1
    No left arrow Decode
Dimensiones

This section compares the physical dimensions of GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It covers the size, weight, and slot requirements, which are key factors in ensuring compatibility with your PC case, particularly for smaller or more compact setups..

  • Longitud
    267 mm left arrow 313 mm
  • Altura
    121 mm left arrow 135 mm
  • Width
    40 mm left arrow 53 mm
  • Anchura (ranuras)
    2 PCIe-Slots left arrow 3 PCIe-Slots
  • Weight
    -- left arrow --
Additional Information

This section provides additional information about GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT. It covers aspects such as release dates, interface compatibility, and other unique features that might not be covered in other sections.This helps users make a more informed decision about the suitability of each card for their specific use case.

  • Interfaz de la GPU
    PCIe 3.0 x 16 left arrow PCIe 4.0 x 16
  • Fecha de publicación
    Q1/2019 left arrow Q1/2021
  • Release price
    -- left arrow 779 $
  • proceso tecnológico
    7 nm left arrow 7 nm
  • Parte-no
    GV-RVEGA20-16GD-B left arrow 11304-03-20G
  • especificación
    data sheet left arrow data sheet

Puntos de referencia

Pruebas de rendimiento GPUs

By reviewing the results from several well-known benchmarks, you can more accurately assess the performance differences between GIGABYTE Radeon VII HBM2 16G y Sapphire Pulse Radeon RX 6800 XT.

Compare the synthetic benchmark results and select the best graphics card for your needs!

FP32 Performance (Single-precision TFLOPS)
Benchmark FP32 es un cálculo en coma flotante de 32 bits para la GPU, necesario para los juegos 3D.
13.44
GIGABYTE Radeon VII HBM2 16G
21.29
Sapphire Pulse Radeon RX 6800 XT
3DMark Benchmark
3DMark está diseñado para jugadores, overclockers y creadores de sistemas que quieren sacar el máximo partido a su hardware.
8702
GIGABYTE Radeon VII HBM2 16G
17644
Sapphire Pulse Radeon RX 6800 XT
Battlefield 5
Battlefield 5 es un juego realista, con un benchmark incorporado, muy adecuado como prueba para las tarjetas gráficas.
64 fps (avg)
GIGABYTE Radeon VII HBM2 16G
104 fps (avg)
Sapphire Pulse Radeon RX 6800 XT
Shadow of the Tomb Raider
Shadow of the Tomb Raider tiene un punto de referencia integrado, basado en el motor de Crystal Dynamics Foundation.
45 fps (avg)
GIGABYTE Radeon VII HBM2 16G
70 fps (avg)
Sapphire Pulse Radeon RX 6800 XT
Crypto-Mining Ethereum Hashrate (MH/s)
Ethash es un algoritmo para minar la criptomoneda Ethereum que aprovecha al máximo la GPU.
96 MH/s
GIGABYTE Radeon VII HBM2 16G
63 MH/s
Sapphire Pulse Radeon RX 6800 XT
Crypto-Mining Ergo Hashrate (MH/s)
El algoritmo Autolykos, en el que se basa la criptomoneda Ergo, permite utilizar no sólo las GPUs modernas para la minería, sino también la generación anterior de GPUs.
220 MH/s
GIGABYTE Radeon VII HBM2 16G
120 MH/s
Sapphire Pulse Radeon RX 6800 XT
Crypto-Mining Ravencoin Hashrate (MH/s)
La minería de la criptomoneda Ravencoin con el algoritmo KawPoW es la más rápida en las tarjetas de vídeo modernas.
30 MH/s
GIGABYTE Radeon VII HBM2 16G
32 MH/s
Sapphire Pulse Radeon RX 6800 XT
Crypto-Mining Vertcoin Hashrate (MH/s)
La criptomoneda VertCoin puede ser minada tanto en Nvidia como en AMD y es interesante porque mina perfectamente en GPUs antiguas como GTX1050, R9 290 e incluso GTX970.
1.17 MH/s
GIGABYTE Radeon VII HBM2 16G
0.94 MH/s
Sapphire Pulse Radeon RX 6800 XT

Últimas comparaciones