

WHATSMINER M30S++ 104TH
SKU: MIAM30S31W104
$972.87 USD
Mininum Order Qty IS 10
- Hashrate: 104TH
- Algorithum: SHA-256
Out of stock
WHATSMINER M30S++ 104TH
$972.87
WHATSMINER M30S++ Features
The Future of Mining
The WHATSMINER M30S++ 104TH Series is the latest generation of Asic Miners that are designed with advanced technology, improving operations and ensuring long-term operations for future mining. Industry-Leading Hash Rates, Reaching The next-generation achieves ± 3% TH/s leading the industry through performance. J/TH Power Efficiency. The has a power consumption of ± 5% W and power efficiency of J/TH, further improving the efficiency from its predecessor.
is An application-specific integrated circuit (ASIC) is an integrated circuit (IC) chip customized for a particular use, rather than intended for general-purpose use. For example, a chip designed to run in a digital voice recorder or a high-efficiency Bitcoin miner is an ASIC. Application-specific standard product (ASSP) chips are intermediate between ASICs and industry-standard integrated circuits like the 7400 series or the 4000 series. ASIC chips are typically fabricated using metal-oxide-semiconductor (MOS) technology, as MOS integrated circuit chips.
MicroBT is a manufacturer of cryptocurrency, blockchain, and artificial intelligence computing hardware, and also operates the world’s largest and second-largest Bitcoin mining pools according to the companies website.
As feature sizes for have shrunk and design tools improved over the years, the maximum complexity (and hence functionality) possible in an ASIC has grown from 5,000 logic gates to over 100 million. Modern ASICs often include entire microprocessors, memory blocks including ROM, RAM, EEPROM, flash memory, and other large building blocks. Such an ASIC is often termed an SoC (system-on-chip). Designers of digital ASICs often use a hardware description language (HDL), such as Verilog or VHDL, to describe the functionality of ASICs.
utilizes Field-programmable gate arrays (FPGA) are the modern-day technology for building a breadboard or prototype from standard parts[vague]; programmable logic blocks and programmable interconnects allow the same FPGA to be used in many different applications. For smaller designs or lower production volumes, FPGAs may be more cost-effective than an ASIC design, even in production. The non-recurring engineering (NRE) cost of an ASIC can run into the millions of dollars. Therefore, device manufacturers typically prefer FPGAs for prototyping and devices with low production volume and ASICs for very large production volumes where NRE costs can be amortized across many devices.
Early ASICs used gate array technology. By 1967, Ferrari and InterDesign were manufacturing early bipolar gate arrays. In 1967, Fairchild Semiconductor introduced the Micro matrix family of bipolar diode–transistor logic and transistor-transistor logic arrays.
Complementary metal-oxide-semiconductor (CMOS) technology opened the door to the broad commercialization of gate arrays. The first CMOS gate arrays were developed by Robert Lipp in 1974 for International Microcircuits, Inc.
utilizes a Metal-oxide-semiconductor standard cell technology was introduced by Fairchild and Motorola, under the trade names Micromosaic and Polycell, in the 1970s. This technology was later successfully commercialized by VLSI Technology and LSI Logic.
A successful commercial application of gate array circuitry was found in the low-end 8-bit ZX81 and ZX Spectrum personal computers, introduced in 1981 and 1982. These were used by Sinclair Research essentially as a low-cost I/O solution aimed at handling the computer’s graphics.
Customization occurred by varying a metal interconnect mask. Gate arrays had complexities of up to a few thousand gates; this is now called mid-scale integration. Later versions became more generalized, with different base dies customized by both metal and polysilicon layers. Some base dies also include random-access memory (RAM) elements.


Algorithm
SHA-256
Power Consumption
Hashrate
104THTH/S
Mineable Coins With WHATSMINER M30S++
Bitcoin
Bitcoin Cash
Fully Managed Crypto Hosting
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Techinical Specifications
Manufacturer: MicroBt
Model: WHATSMINER M30S++
Hashrate: 104THTh
Dimensions: 390mm(L) x 130mm(W) x 220mm(H)
Noise: Unlisted
Fans / Cooling: 2
Voltage: 12V
Interface: Ethernet
Temperature: '-5-40 °C
Humidity: %
Warranty: Warranty
Introducing the High-Efficiency WHATSMINER M30S++ 104TH for Bitcoin Mining
Unlocking Powerful Bitcoin Mining Performance with the WHATSMINER M30S++ 104TH
The WHATSMINER M30S++ 104TH stands as a robust and efficient Bitcoin mining machine, designed by MicroBT, a well-regarded manufacturer in the cryptocurrency mining hardware industry. This miner is engineered to deliver a significant hash rate while maintaining competitive power efficiency, making it a popular choice for both large-scale mining farms and individual miners seeking reliable performance. The WHATSMINER M30S++ 104TH represents an evolution in MicroBT’s product line, building upon previous successes to offer enhanced capabilities for profitable Bitcoin mining operations.Year of Release: The WHATSMINER M30S++ 104TH’s Market Entry
The WHATSMINER M30S++ series, including the 104TH model, was released in the latter half of 2020. This timing is significant as it places the WHATSMINER M30S++ 104TH within a period of increasing demand for more powerful and efficient mining hardware as the Bitcoin network’s difficulty continued to rise. Understanding the release year helps miners gauge the technological advancements incorporated into the WHATSMINER M30S++ 104TH compared to earlier generations and newer models that have since entered the market.Building on Innovation: Upgrades from the Predecessor WHATSMINER M30S
Increased Hash Rate for Enhanced Mining Potential
The WHATSMINER M30S++ 104TH is a direct upgrade from its predecessor, the WHATSMINER M30S. A primary enhancement is the increased hash rate. While the WHATSMINER M30S typically offered hash rates ranging from 86 TH/s to 88 TH/s, the WHATSMINER M30S++ 104TH boasts a significantly higher hash rate of 104 TH/s. This increase in hashing power directly translates to a greater ability to solve Bitcoin’s cryptographic puzzles, thus increasing the miner’s chances of earning block rewards. For mining operators, this upgrade meant a potential increase in revenue generation for a similar operational footprint.Improved Power Efficiency for Lower Operating Costs
Another crucial upgrade in the WHATSMINER M30S++ 104TH is the improved power efficiency. Measured in Joules per Terahash (J/TH), the WHATSMINER M30S++ 104TH typically exhibits a lower energy consumption per unit of hashing power compared to the WHATSMINER M30S. This reduction in power consumption is vital for minimizing electricity costs, which constitute a significant portion of the expenses in Bitcoin mining. The enhanced efficiency of the WHATSMINER M30S++ 104TH allows mining operations to achieve a higher hash rate with a more optimized energy expenditure, leading to improved profitability.Refined ASIC Chip Technology
The performance improvements in the WHATSMINER M30S++ 104TH are largely attributed to advancements in its Application-Specific Integrated Circuit (ASIC) chip technology. While specific details about the chip architecture are proprietary, it’s reasonable to assume that the WHATSMINER M30S++ 104TH utilizes a more refined and efficient chip design compared to the WHATSMINER M30S. These advancements likely involve a smaller nanometer process, allowing for more processing power within the same or less energy envelope. This evolution in ASIC technology is a key driver behind the increased hash rate and improved efficiency of the WHATSMINER M30S++ 104TH.Optimized Cooling System for Sustained Performance
To handle the increased heat generated by the higher hash rate, the WHATSMINER M30S++ 104TH likely features an optimized cooling system compared to its predecessor. Effective heat dissipation is crucial for maintaining the stability and longevity of high-performance ASIC miners. While both models utilize air cooling, the WHATSMINER M30S++ 104TH may incorporate improved heat sink designs, more efficient fans, or an optimized airflow path to ensure that the miner operates within its optimal temperature range even under continuous high load. This enhanced cooling contributes to the reliable performance of the WHATSMINER M30S++ 104TH.Key Product Specifications of the WHATSMINER M30S++ 104TH and Their Importance in Bitcoin Mining
Hash Rate: 104 TH/s
The hash rate, measured in Terahashes per second (TH/s), is the fundamental measure of a Bitcoin miner’s processing power. A hash rate of 104 TH/s means the WHATSMINER M30S++ 104TH can perform 104 trillion SHA-256 calculations every second. This high hash rate directly correlates with the miner’s ability to compete on the Bitcoin network and increases the probability of successfully mining new blocks and earning the associated Bitcoin rewards. For any Bitcoin mining operation, a strong hash rate like that of the WHATSMINER M30S++ 104TH is paramount for achieving profitability.Power Consumption: Approximately 3400W
Power consumption, expressed in Watts (W), indicates the amount of electrical energy the WHATSMINER M30S++ 104TH requires to operate. With a power consumption of around 3400W, it’s evident that high-performance Bitcoin mining is energy-intensive. Understanding the power consumption is crucial for miners to accurately calculate their electricity costs, which represent a significant portion of their operational expenses. Balancing a high hash rate with manageable power consumption, as achieved by the WHATSMINER M30S++ 104TH, is essential for maximizing the return on investment in Bitcoin mining.Power Efficiency: Approximately 33 J/TH
Power efficiency, measured in Joules per Terahash (J/TH), is a critical metric that reflects how effectively a miner converts electrical energy into hashing power. The WHATSMINER M30S++ 104TH boasts a power efficiency of approximately 33 J/TH. This figure indicates that the miner consumes 33 Joules of energy for every trillion hashes it performs. A lower J/TH value signifies greater energy efficiency, meaning lower electricity costs per Bitcoin mined. The improved power efficiency of the WHATSMINER M30S++ 104TH compared to earlier models is a significant advantage for reducing operational expenses and enhancing profitability.Chip Type: Custom ASIC (Likely 8nm or similar)
The WHATSMINER M30S++ 104TH utilizes custom-designed Application-Specific Integrated Circuit (ASIC) chips. These chips are specifically engineered for the SHA-256 algorithm, which is the cryptographic algorithm used by the Bitcoin network. ASICs are far more efficient at this specific task compared to general-purpose processors (CPUs) or graphics processing units (GPUs), making them the standard for competitive Bitcoin mining. The advanced ASIC technology within the WHATSMINER M30S++ 104TH is what enables its high hash rate and relatively efficient power consumption; it likely employs an 8nm process or a similar advanced node.Cooling System: Air-Cooled with High-Performance Fans
The WHATSMINER M30S++ 104TH employs an air-cooling system, typically featuring multiple high-performance fans, to dissipate the heat generated by the ASIC chips during operation. Effective cooling is essential to maintain the miner’s optimal operating temperature, prevent overheating, and ensure stable performance and longevity. The robust air-cooling system of the WHATSMINER M30S++ 104TH is designed to handle the thermal output associated with its high hash rate, contributing to its reliable operation.Noise Level: Approximately 75 dB
The noise level, measured in decibels (dB), indicates the sound produced by the miner during operation, primarily from its cooling fans. A noise level of around 75 dB is typical for high-performance air-cooled ASIC miners like the WHATSMINER M30S++ 104TH. This level of noise can be significant and is an important consideration for miners when selecting a location for their equipment. Proper soundproofing or placement in dedicated mining facilities is often necessary to mitigate noise pollution. While noise level doesn’t directly impact mining performance, it’s a practical factor for operational comfort and regulatory compliance.Operating Temperature: -5 – 40 °C
The operating temperature range specifies the environmental conditions under which the WHATSMINER M30S++ 104TH is designed to function optimally. A typical range of -5 to 40 °C highlights the need for a controlled environment to ensure stable and efficient operation. Extreme temperatures can negatively impact the miner’s performance and potentially cause damage. Maintaining the WHATSMINER M30S++ 104TH within its recommended operating temperature range is crucial for its reliability and lifespan.Connectivity: Ethernet
The WHATSMINER M30S++ 104TH connects to the network via an Ethernet port. A stable and reliable network connection is essential for Bitcoin mining, as the miner needs to communicate constantly with the mining pool and the Bitcoin network to receive work and submit results. Ethernet connections provide the necessary bandwidth and stability for uninterrupted mining operations, ensuring that the WHATSMINER M30S++ 104TH can effectively contribute its hashing power and receive rewards.Dimensions and Weight: 486 x 388 x 265 mm, Approximately 12.5 kg
The physical dimensions and weight of the WHATSMINER M30S++ 104TH are important considerations for setting up and managing a mining operation, especially when deploying multiple units. These specifications affect factors such as rack space requirements, transportation logistics, and overall facility planning. The relatively compact size and weight of the WHATSMINER M30S++ 104TH make it easier to handle and deploy compared to some larger mining rigs. Miners need to consider these physical attributes when designing their mining infrastructure.The Importance of Specifications for Successful Bitcoin Mining
A thorough understanding of the WHATSMINER M30S++ 104TH’s specifications is vital for achieving success in Bitcoin mining. The hash rate directly determines the potential for revenue generation, while power consumption dictates the primary operational cost. The power efficiency metric provides insight into the miner’s cost-effectiveness over time. The cooling system ensures the miner’s reliability and longevity, and the noise level impacts the suitability of different deployment environments. By carefully evaluating these specifications, miners can make informed decisions about their hardware investments and optimize their operations for maximum profitability in the competitive landscape of Bitcoin mining. The WHATSMINER M30S++ 104TH strikes a strong balance between high performance and relative efficiency, making it a valuable asset for many Bitcoin mining endeavors.Final Thoughts on the WHATSMINER M30S++ 104TH
The WHATSMINER M30S++ 104TH stands as a significant advancement in Bitcoin mining hardware, offering a substantial increase in hash rate and improved power efficiency compared to its predecessor, the M30S. Released in 2020, the WHATSMINER M30S++ 104TH quickly became a popular choice for miners seeking a reliable and powerful machine to navigate the increasing difficulty of the Bitcoin network. Its key specifications highlight a well-engineered balance between performance and operational cost, making the WHATSMINER M30S++ 104TH a testament to MicroBT’s commitment to providing effective and competitive Bitcoin mining solutions.Ready to Buy
WHATSMINER M30S++ 104THs
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