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Bitmain Antminer Bitcoin Miner S23 318th
Bitmain Antminer Bitcoin Miner S23 318th Reversed Angled Miner View
Understanding The Mining Rig Market

UNDERSTANDING THE BITCOIN MINING RIG MARKET

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Bitmain Antminer Bitcoin Miner S23 318th
Bitmain Antminer Bitcoin Miner S23 318th
Bitmain Antminer Bitcoin Miner S23 318th Reversed Angled Miner View

Bitmain Antminer S23 318Th

SKU: BATS21-2-1-1

$8,599.00 USD

Minimum Order Qty is 5

  • Hashrate: 270Th
  • Algorithim: SHA-256
  • Power:: 3412-3290W
Total:
Price Per Th: $41.04

Antminer S23 Features

Unlock extreme hydro-cooled power with the “Bitmain Antminer S23 318Th”! This next-generation Bitcoin Miner delivers an unprecedented hash rate and a projected, industry-leading efficiency of just . Engineered by Bitmain for maximum density and lowest operational costs, the S23 318Th is the ultimate choice for large-scale SHA-256 mining. Dominate the network with revolutionary efficiency.
Discover All Antminer S23 Features

The Future of Mining

The Bitmain Antminer S23 318Th 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.

Bitmain Antminer Bitcoin Miner S23 318th
Bitmain Antminer Bitcoin Miner S23 318th
Bitmain Antminer Bitcoin Miner S23 318th Reversed Angled Miner View
Algo Icon2 03

Algorithm

SHA-256
Powerrate Icon2 02

Power Consumption

3412-3290W
Hashrate Icon

Hashrate

270TH/S

Mineable Coins With Antminer S23

Bitcoin Coin 02

Bitcoin

Bitcoin Cash Icon

Bitcoin Cash

Fully Managed Crypto Hosting

Leverage years of hosting expertise to maximize your crypto mining profitability with our proven solution

Techinical Specifications

Manufacturer: Bitmain

Model: Antminer S23

Hashrate: 270Th

Release Date: Hanuary 2026Th

Dimensions: 400 X 195 X 290mm

Weight: 15.4Kg

Noise: 75db

Fans / Cooling: 4

Power: 3412-3290W

Voltage: 220-277V

Interface: Ethernet

Temperature: 0 – 45 °C

Humidity: 10 – 90 %

Warranty: 365 Days

Hydro-Cooled Powerhouse: The “Bitmain Antminer S23 318Th Bitcoin Miner” SEO Long Product Description

A New Generation of Hydro-Cooling: Introducing the “Bitmain Antminer S23 318Th Bitcoin Miner”

The relentless pursuit of efficiency in **Bitcoin mining** necessitates advanced cooling solutions. The **”Bitmain Antminer S23 318Th Bitcoin Miner”** marks the dawn of the next-generation S23 series, leveraging cutting-edge **hydro-cooling** technology to achieve performance metrics previously thought impossible. Engineered by **Bitmain** for the most demanding, industrial-scale operations, the **”Bitmain Antminer S23 318Th Bitcoin Miner”** is the strategic investment for miners focused on density, stability, and extreme profitability. The primary advantage of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** lies in its optimization of the **Joules per Terahash ($\text{J/TH}$)**. By immersing its **ASIC chips** in a controlled liquid environment, the **”Bitmain Antminer S23 318Th Bitcoin Miner”** achieves a massive **$318 \text{ TH/s}$ hash rate** while drastically reducing the energy required per unit of computation. This breakthrough efficiency ensures the lowest possible operational costs and the highest degree of future-proofing for your **SHA-256** farm. Hydro-cooling is not merely a feature; it is a fundamental shift in design. The stable, precise temperature control offered by the **”Bitmain Antminer S23 318Th Bitcoin Miner”** allows the **ASIC chips** to operate continuously at their peak performance frequency. This consistency translates directly to maximized uptime and a dependable $318 \text{ TH/s}$ output, which is the cornerstone of maximizing revenue in the competitive **Bitcoin mining** sector.

“Bitmain Antminer S23 318Th Bitcoin Miner” Release Year and Market Innovation

Release Timeline: Late 2025 / Early 2026 (Estimated)

The **”Bitmain Antminer S23 318Th Bitcoin Miner”** is anticipated to be released in late 2025 or early 2026. As a successor to the S21 and S22 generations, its introduction is expected to set a new, significantly lower benchmark for the efficiency of mass-produced **SHA-256** hardware. The release of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** confirms the industry’s inevitable shift towards high-density, hydro-cooled infrastructure. The market for **Bitcoin miners** immediately recognized the **”Bitmain Antminer S23 318Th Bitcoin Miner”** as the leading edge of technology. Its projected efficiency makes it indispensable for industrial miners seeking to scale operations without commensurate increases in energy spending. The power and efficiency of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** are the strategic advantages required for success in the advanced **Bitcoin mining** ecosystem.

Unprecedented Upgrades Over Predecessor: Antminer S21 XP (Air-Cooled)

While the **”Bitmain Antminer S23 318Th Bitcoin Miner”** is a hydro-cooled unit and thus operates in a different class than the air-cooled S21 XP, the comparison highlights the generational leap in **ASIC** technology and cooling strategy. The Antminer S21 XP (approx. $270 \text{ TH/s}$, $13.5 \text{ J/TH}$) was the peak of air-cooling; the S23 represents the peak of the next era.

Efficiency Leap: $\approx 11.5 \text{ J/TH}$ vs. $13.5 \text{ J/TH}$ (S21 XP)

The most dramatic upgrade is the projected efficiency of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** at $\approx 11.5 \text{ J/TH}$ (estimated based on technological progression and power draw of $3657 \text{ W}$). This represents a significant 15% improvement over the S21 XP’s record $13.5 \text{ J/TH}$. This reduction in energy cost per **Terahash** is colossal at an industrial scale, making the **”Bitmain Antminer S23 318Th Bitcoin Miner”** substantially more profitable and energy-efficient.

Hash Rate Revolution: $318 \text{ TH/s}$ vs. $270 \text{ TH/s}$ (S21 XP)

The **”Bitmain Antminer S23 318Th Bitcoin Miner”** delivers an enormous **$318 \text{ TH/s}$ hash rate**, far exceeding the S21 XP’s $270 \text{ TH/s}$. This $48 \text{ TH/s}$ boost in raw processing power allows the owner of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** to capture a much larger share of the total **Bitcoin** network hash rate, directly increasing daily revenue potential.

Hydro-Cooling Integration

The shift from air-cooling to integral **Hydro-Cooling** in the **”Bitmain Antminer S23 318Th Bitcoin Miner”** is the key enabler of its extreme performance. Liquid cooling removes heat more effectively, allowing the advanced **ASIC chips** to be pushed to higher clock speeds and density while maintaining thermal stability. This cooling method ensures the **$318 \text{ TH/s}$** is delivered consistently.

Increased Hash Power Density

Hydro-cooled systems like the **”Bitmain Antminer S23 318Th Bitcoin Miner”** can be packed much closer together than air-cooled units. This allows mining operations to achieve a significantly higher density of **Terahash** per square meter of facility space. The **”Bitmain Antminer S23 318Th Bitcoin Miner”** is designed for centralized, dense deployment, maximizing the ROI on land and facility infrastructure.

Key Product Specifications and Importance to Bitcoin Mining

The specifications of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** redefine the profitability models for large-scale **SHA-256** mining.

Hash Rate: $318 \text{ TH/s}$ (Terahashes per Second)

The phenomenal **$318 \text{ TH/s}$ hash rate** is the sheer processing strength of the **”Bitmain Antminer S23 318Th Bitcoin Miner”**. This level of computational power is crucial for maintaining profitability as the **Bitcoin** network difficulty continues its exponential rise, ensuring a high probability of earning block rewards.

Power Efficiency: $\approx 11.5 \text{ J/TH}$ (Joules per Terahash)

The projected **$\approx 11.5 \text{ J/TH}$** efficiency is the most important financial metric. This ultra-low figure dramatically reduces the electricity cost per mined coin, making the **”Bitmain Antminer S23 318Th Bitcoin Miner”** incredibly resilient to high energy prices and securing a vast competitive advantage over any air-cooled or previous-generation hydro-cooled machine.

Power Consumption: $\approx 3657 \text{ W}$ (Watts)

The power consumption of $\approx 3657 \text{ W}$ for the **”Bitmain Antminer S23 318Th Bitcoin Miner”** is highly efficient when compared to its output. While the total draw is managed, the $\approx 11.5 \text{ J/TH}$ ratio ensures that this power is used with near-perfect optimization, enabling the highest possible **Terahash** output per Watt.

Algorithm: SHA-256

The **”Bitmain Antminer S23 318Th Bitcoin Miner”** is dedicated to the **SHA-256** algorithm, ensuring its $318 \text{ TH/s}$ of power is focused entirely on mining **Bitcoin** (BTC). This specialization is key to maximizing revenue from the most valuable cryptocurrency network.

Cooling Method: Hydro-Cooled

The integral **Hydro-Cooled** design is essential for achieving the $\approx 11.5 \text{ J/TH}$ efficiency. It allows for the highest possible component density and stable operation, reducing fan noise dramatically and increasing the lifespan and reliability of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** in large-scale **Bitcoin mining** facilities.

Strategic Advantages of the “Bitmain Antminer S23 318Th Bitcoin Miner” for Industrial Mining

The choice to deploy the **”Bitmain Antminer S23 318Th Bitcoin Miner”** is a commitment to technological leadership. The **$\approx 11.5 \text{ J/TH}$** efficiency sets the gold standard for operating costs, making the fleet exceptionally durable against adverse market conditions. This low cost basis ensures that the **”Bitmain Antminer S23 318Th Bitcoin Miner”** will remain profitable for a significantly longer period than previous generations. For industrial operations, the hydro-cooling system of the **”Bitmain Antminer S23 318Th Bitcoin Miner”** facilitates unparalleled density. Miners can install more units, achieving a higher combined **$318 \text{ TH/s}$** hash power within the same footprint, thereby maximizing the return on physical space and capital investment in the facility’s infrastructure. This is crucial for maximizing the overall value of the **Bitcoin mining** operation. The stable thermal environment provided by hydro-cooling reduces wear and tear on components, increasing the longevity and reducing the maintenance needs of the **”Bitmain Antminer S23 318Th Bitcoin Miner”**. Minimized downtime and maximized component lifespan are non-negotiable for an asset generating **$318 \text{ TH/s}$** of revenue, making the **”Bitmain Antminer S23 318Th Bitcoin Miner”** a highly reliable investment. The **”Bitmain Antminer S23 318Th Bitcoin Miner”** is designed for the future of the network. As **Bitcoin** difficulty climbs, only miners with this level of efficiency and raw **hash rate** can secure competitive rewards. Investing in the **”Bitmain Antminer S23 318Th Bitcoin Miner”** guarantees that your operation is equipped with the best possible technology to navigate the evolving demands of **SHA-256** computation.

Final Thoughts

The **”Bitmain Antminer S23 318Th Bitcoin Miner”** heralds a new era of industrial-scale **Bitcoin mining**. With a massive **$318 \text{ TH/s}$ hash rate** and a projected, industry-leading efficiency of approximately **$\approx 11.5 \text{ J/TH}$**, it offers an unmatched combination of raw power and energy optimization. For large-scale operators seeking the absolute best in density, performance, and long-term profitability from a hydro-cooled solution, the **”Bitmain Antminer S23 318Th Bitcoin Miner”** is the clear and necessary choice to dominate the **SHA-256** network.

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Bitmain Antminer S23 318Ths

  • We accept payments via Wire Transfer through banks, cryptocurrency (Bitcoin, Ethereum), or stable coins (USDC, USDT).
  • All prices on our website are listed in US Dollars.
    Due to the volatile nature of cryptocurrencies, the exact amount to be paid for Bitmain Antminer S23 318Ths’ will be in USD and require conversion at time of purchase.
  • Please note: All Bitmain Antminer S23 318Ths’ are subject to market fluctuations
  • All Bitmain Antminer S23 318Th Orders are dispatched after purchase is finalized, typically shipping within 10 Business days from the warehouse. Bulk orders may require an additional 1-2 days.
  • International Bitmain Antminer S23 318Th deliveries typically take 5-14 business days to arrive on site in the USA.
  • All Bitmain Antminer S23 318Th sales are final and non-refundable.

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