P106-100 Mining Card Review | Pascal Architecture, Hashrates & Real-World Performance

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The NVIDIA P106-100 is a graphics processing unit (GPU) designed for cryptocurrency mining. The NVIDIA P106-100, a graphics processing unit (GPU), emerged as a compelling option for cryptocurrency mining. Released during the peak of the cryptocurrency mining boom, particularly in 2017, it offered a blend of performance and cost-effectiveness that made it a favorite among miners. This GPU was specifically designed for mining and lacked display outputs, which distinguished it from consumer-grade graphics cards intended for gaming and other graphical applications.

NVIDIA P106-100 Specifications :

The NVIDIA P106-100 is built upon the Pascal architecture, which was renowned for its efficiency and performance. It features 1280 CUDA cores, which are the fundamental building blocks for parallel processing. These cores enable the GPU to perform numerous computations simultaneously, a critical requirement for mining cryptocurrencies. The base clock speed of the P106-100 is 1506 MHz, while the boost clock speed can reach up to 1708 MHz, providing additional performance when needed.

The GPU is equipped with 6 GB of GDDR5 memory, operating on a 192-bit memory bus. The memory clock speed is 8008 MHz, which ensures rapid data transfer between the GPU and memory. This is essential for mining algorithms that require frequent memory access. The P106-100 requires a 6-pin power connector and typically consumes around 120 watts of power, making it relatively energy-efficient compared to other mining GPUs.

NVIDIA P106-100 Hashrate

The NVIDIA P106-100 has been tested and benchmarked for its mining performance across several popular cryptocurrencies. The hashrate varies depending on the mining algorithm used. The P106-100 has been used to mine various cryptocurrencies, each utilizing different algorithms and offering different levels of profitability.

For Ethereum (ETH) mining using the DaggerHashimoto algorithm, the P106-100 typically achieves a hashrate of around 25. 1 MH/s. This made it a popular choice for mining Ethereum during its early years. The Zcash mining hashrate, which relies on the Equihash algorithm, is approximately 290 H/s. For other cryptocurrencies like Monero (XMR), the P106-100 achieves a hashrate of around 0. 37 kH/s using the Cryptonight algorithm. Other notable hashrates include 28. 03 MH/s for Lyra2REv2, 1. 91 GH/s for Decred (DCR), 328. 85 Sol/s for Equihash (ZEC, ZEN, ZCL), 0. 67 GH/s for Pascal (PASC, PASL), 1. 17 GH/s for Siacoin (SC), and 2. 78 GH/s for BLAKE2S.

The NVIDIA P106-100 played a significant role in the cryptocurrency mining boom. Its cost-effectiveness and performance made it accessible to a wide range of miners, from individual enthusiasts to large-scale mining operations. This GPU contributed to the decentralization of cryptocurrency mining and helped secure various blockchain networks. The availability of the P106-100 also influenced the market dynamics of other GPUs, as it provided a competitive alternative to consumer-grade graphics cards.

The rise of cryptocurrency mining, fueled by GPUs like the P106-100, had several economic implications. The demand for GPUs surged, leading to price increases and shortages in the market. This affected gamers and other consumers who relied on GPUs for their activities. GPU manufacturers, including NVIDIA, saw significant revenue growth due to the increased demand from miners.

The cryptocurrency mining boom also led to the creation of new businesses and industries. Mining farms emerged, providing infrastructure and services for large-scale mining operations. Software developers created mining tools and algorithms to optimize the performance of GPUs like the P106-100. The cryptocurrency ecosystem as a whole experienced rapid growth, attracting investors and entrepreneurs from various sectors.

Cryptocurrency mining, particularly when conducted on a large scale, consumes significant amounts of electricity. This has raised concerns about the environmental impact of mining, particularly in regions where electricity is generated from fossil fuels. The P106-100, with its relatively high-power efficiency, was seen as a more environmentally friendly option compared to other GPUs with higher power consumption.

However, the cumulative energy consumption of numerous P106-100 GPUs operating continuously still contributed to the overall environmental footprint of cryptocurrency mining. Efforts to mitigate these environmental concerns have included transitioning to renewable energy sources for mining operations and developing more energy-efficient mining algorithms.

The cryptocurrency market is dynamic and subject to rapid changes. The profitability of mining various cryptocurrencies can fluctuate depending on factors such as the price of the cryptocurrency, the difficulty of the mining algorithm, and the availability of more efficient mining hardware. The NVIDIA P106-100, while once a popular choice, has become less competitive as newer GPUs with higher hashrates and better energy efficiency have entered the market.

The future of the P106-100 depends on several factors. As mining algorithms evolve and new cryptocurrencies emerge, the P106-100 may find new niches where it remains profitable. Additionally, the availability of used P106-100 GPUs at lower prices could make them attractive to budget-conscious miners. The development of more efficient mining software and techniques could also extend the lifespan of the P106-100.

The rise of alternative mining methods, such as proof-of-stake (PoS), could also impact the demand for GPUs like the P106-100. PoS algorithms do not require energy-intensive mining and instead rely on users staking their cryptocurrency holdings to validate transactions. As more cryptocurrencies transition to PoS, the demand for GPU mining may decline.

The NVIDIA P106-100 remains a significant milestone in the history of cryptocurrency mining. Its specifications, hashrates, and power consumption made it a popular choice during the mining boom, contributing to the decentralization of cryptocurrency networks and influencing the market dynamics of GPUs. The economic implications of its widespread use included increased GPU demand, the emergence of new industries, and environmental concerns related to energy consumption. As the cryptocurrency market continues to evolve, the future of the P106-100 will depend on its ability to adapt to new algorithms, remain competitive in terms of cost and performance, and contribute to more sustainable mining practices.

These specifications indicate that the P106-100 is a powerful GPU capable of delivering high performance for cryptocurrency mining. The large number of CUDA cores, high clock speeds, and ample memory make it well-suited for mining a variety of cryptocurrencies.

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Summary of the NVIDIA P106-100 Specifications :

CUDA® Cores : 1280
Base Clock Speed : 1506 MHz
Core Clock Boost : 1708 MHz
Memory Bus : 192 bit
Memory Clock : 8008 MHz
Memory Size : 6 GB
Memory Type : GDDR5
Power Connectors : 6 pin

Summary of the NVIDIA P106-100 Mining Hashrates :

Zcash Mining Hashrate : 290 H/s
KECCAK Mining Hashrate : 524.31 MH/s
NeoScrypt [ (ORB) & (PXC) & (FTC) & (INN) & (GBX) & (TZC) & (VIVO) & (CRC) ] Mining Hashrate : 0.6 MH/s
Lyra2REv2 [ (XVG) & (VTC) & (MONA) ] Mining Hashrate : 28.03 MH/s
DaggerHashimoto [ EtHash : (ETH) & (ETC) ] Mining Hashrate : 25.1 MH/s
Decred (DCR) Mining Hashrate : 1.91 GH/s
Cryptonight [ (XMR) & (XDN) ] Mining Hashrate : 0.37 kH/s
CryptoNightV7 Mining Hashrate : 0.37 KH/s
Lbry ( LBC ) Mining Hashrate : 0.2 GH/s
Equihash [ (ZEC – ZEN – ZCL) & (BTG) & (KMD) & (HUSH) ] Mining Hashrate : 328.85 Sol/s
Pascal [ (PASC) & (PASL) ] Mining Hashrate : 0.67 GH/s
SIACOIN (SC) Mining Hashrate : 1.17 GH/s
BLAKE2S Mining Hashrate : 2.78 GH/s