Auto Transformers: Compact Efficiency for Voltage Control

 Introduction

When efficient voltage regulation and cost-effectiveness are priorities, Auto Transformers stand out as a smart solution. Unlike traditional transformers, auto transformers use a single winding for both primary and secondary sides, reducing size, weight, and material costs while delivering reliable voltage transformation for a variety of applications.

What is an Auto Transformer?

An Auto Transformer is a type of electrical transformer where part of the winding is common to both the primary and secondary circuits. This design allows for voltage adjustment with less copper and iron material, making it more compact and efficient for specific voltage ranges.

 How Does It Work?

The auto transformer has a single continuous winding with taps at different points.

The input voltage is applied across a portion of the winding (primary side).

The output voltage is taken from another tap on the same winding (secondary side).

By varying the tap points, the transformer either steps voltage up or down efficiently with reduced losses.

 Purposes

To provide voltage regulation in power systems

To step up or step down voltage in a compact form

To save material and reduce transformer size and weight

To improve efficiency in applications where voltage differences are small

 Key Features

Single winding used for both primary and secondary

Compact and lightweight design

High efficiency with reduced copper and core material

Cost-effective compared to conventional transformers

Suitable for small voltage adjustments

Quick voltage tap changing options

 Benefits

✅ Reduced material and manufacturing costs ✅ Lower losses and higher efficiency ✅ Smaller size and lighter weight for easier installation ✅ Ideal for voltage stabilization and regulation ✅ Simplified design with fewer components ✅ Suitable for a wide range of industrial and commercial uses

 Applications

Voltage regulation in power distribution networks

Motor starting and speed control

Railways and traction systems

Audio and radio frequency equipment

Industrial machinery and control panels

 Conclusion

Auto Transformers offer a cost-effective and efficient way to regulate and transform voltage within limited ranges. Their compact design and high efficiency make them indispensable in many industrial, commercial, and utility applications, delivering reliable performance while saving space and materials.

Company Details:

📍 Company Name: Padmavahini Transformers 🌐 Website: Padmavahini Transformers 📞 Contact No: +91 99430 49222 📧 Email: [email protected] 📍 Address: S. F. No. 353/1, Door No. 7/140, Ruby Matriculation School Road, Keeranatham, Saravanampatti, Coimbatore, Tamil Nadu - 641035, India

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Callsa 12 Volt 8 Amp Power Supply – Stable & Efficient

Callsa 12 Volt 8 Amp Power Supply is engineered for delivering a stable and efficient power output to a wide range of electronic devices. Whether you're powering CCTV cameras, LED strips, routers, or other 12V DC devices, this power adapter ensures smooth and consistent performance without interruptions.

Built with high-quality components, the Callsa 12V 8A power supply offers superior protection against over-voltage, over-current, short circuits, and overheating. This makes it a reliable and safe choice for both residential and commercial applications. The compact and durable design ensures long-lasting usability and easy installation even in tight spaces.

This 12V 8A adapter is ideal for high-power-demanding devices that require a steady and uninterrupted current supply. It helps maintain the optimal functionality of your electronics by preventing voltage drops, surges, and power fluctuations. Whether you’re setting up an extensive CCTV surveillance system or running multiple LED lights, this adapter can handle it all with efficiency and ease.

With a strong and secure DC output, the Callsa 12 Volt 8 Amp Power Supply is trusted by professionals for its stability, durability, and performance. It’s the perfect solution for customers looking for a high-output, plug-and-play DC adapter that delivers on both safety and efficiency.

💻✨ Power Efficiency & Thermal Management in Modern PC Hardware 🔥❄️

Ever wondered how high-performance CPUs and GPUs like Intel Arrow Lake, AMD Zen 5, and NVIDIA Ada Lovelace stay cool under pressure? This blog dives deep into:

⚡ Advanced 3nm/4nm fabrication 🌡️ Dynamic voltage & thermal control (Speed Shift, PBO) 🌀 Vapor chamber cooling, liquid metal TIMs 📊 Real-world benchmarks for desktops & gaming laptops

From efficient power delivery to next-gen cooling, this guide unpacks how modern PCs run faster, cooler, and smarter.

📎 Read the full article 

Leading Grid Tie Inverter Suppliers & Exporters from Himachal Pradesh

We are known as the Best Quality Grid tie Inverter Exporters from Himachal Pradesh, delivering advanced inverter systems to power up solar setups efficiently. Our inverters offer quick grid connectivity, automatic shutdown during voltage fluctuations, and optimal solar energy conversion. These are compact, low-noise, and user-friendly systems perfect for residential or commercial solar units. Our export services cater to clients worldwide, ensuring prompt and secure deliveries. Every inverter is checked for performance under various load conditions before dispatch. If you’re looking for quality, safety, and affordability, our grid tie inverters are your best choice for solar compatibility.

Compact Sub-Station: Efficient Power Solutions for a Sustainable Future

In the fast-paced world of today, efficient and reliable power distribution is a must. Whether it is for urban development, industrial parks, or off-grid sites, the demand for a high-performance, cost-effective, and compact power solution is critical. Compact Sub-Stations (CSS) fill this gap. They provide a space-efficient, energy-saving, and trouble-free solution to address contemporary power needs.

What is a Compact Sub-Station?

A Compact Sub-Station (CSS) is a one-stop electrical distribution box that houses vital elements such as transformers, switchgear, and protection devices in a single, mounted enclosure. In contrast to conventional substations with a wide footprint and complicated installations, CSS comes in the form of a plug-and-play solution, allowing for rapid deployment with little downtime.

Why Utilize a Compact Sub-Station?

1. Space Efficiency

One of the most significant benefits of CSS is its compact nature. It takes up much less space than traditional substations, and it is a perfect solution for cities where space is limited.

2. Rapid and Simple Installation

Traditional power stations take weeks or even months to install. CSS units, however, are pre-assembled and factory-tested, and they can be installed quickly on-site, minimizing downtime and labor expenses.

3. Improved Safety and Protection

A Compact Sub-Station is equipped with state-of-the-art insulation and safety features, minimizing the threat of electrical risks. Being a closed unit, it also keeps the equipment safe from extreme environmental conditions, extending its lifespan and ensuring consistent performance.

4. Cost-Effective Solution

With minimized installation time, labor, and maintenance work, CSS emerges as a cost-effective power distribution solution. It enables industries and companies to streamline their energy distribution without paying heavy costs.

5. Versatile Applications

From commercial buildings and industrial plants to renewable energy schemes and rural electrification, CSS can be utilized in different sectors. It is a stable foundation for electrical networks, providing a constant and unbroken supply of power.

The Role of Compact Sub-Stations in Smart Cities

As the globe shifts towards smart cities and green infrastructure, Compact Sub-Stations are at the forefront of effective energy management. With their capacity to be integrated with renewable energy sources like solar and wind power, Compact Sub-Stations are a game-changer in the green revolution.

Future of Compact Sub-Stations

As IoT and digitalization in power management increase, contemporary CSS units are being fitted with intelligent monitoring systems. The features enable real-time power consumption tracking, predictive maintenance, and remote control functions to provide maximum performance and reduce downtime.

Compact Sub-Stations are revolutionizing power distribution, and this is why they are now a crucial component of the new electrical system.Compact Sub-Stations are efficient, safe, and easy to deploy, which makes them a great option for industries and businesses seeking guaranteed power supply.

Are you in need of a cost-effective, space-efficient, and efficient power distribution system? The right decision for a sustainable and smooth power supply is to invest in a Compact Sub-Station.

Let Pavika Power Equipment assist you in powering the future with innovative Compact Sub-Station solutions! Visit now: www.pavikapowerequipment.in for more details.

Leading Switches Company in India & Best Flood Light in India – HPL India

HPL India is a trusted switches company in India, known for its high-quality electrical solutions designed for safety and efficiency. As a pioneer in lighting technology, HPL also offers the best flood light in India, ensuring superior illumination for outdoor and industrial spaces. With a legacy of innovation, this switches company in India provides a wide range of products, from smart switches to advanced lighting solutions. If you're looking for durability and performance, HPL India delivers the best flood light in India for all your lighting needs.

Visit for more info: HPL Electric & Power Limited 

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Cost-Effective Transformer Rewinding Services in Abu Dhabi

Transformer rewinding by Sea Global UAE in Abu Dhabi offers a smart, cost-effective solution to enhance performance and extend your transformer's life. Save money on replacements while ensuring top-notch efficiency with expert rewinding services tailored to your needs. Transform your power systems today! Contact us (+971 56 374 5538) today for inquiries and assistance. Book now.

AMD EPYC 4584PX, 4484PX With 3D V-Cache & AM5 Support

AMD EPYC 4584PX and 4484PX processors, using 3D V-Cache Stacking to Double L3 Cache to 128 MB

AMD EPYC 4004 Series Processors

Data centers, supercomputers, hyperscalers, and large companies require performance and scalability. However, the AMD EPYC 4004 Series Processors target small businesses and dedicated hosting providers seeking economical entry-level server workload solutions.

These processors provide the speed, scalability, and reliability users expect from AMD EPYC while having low core counts, Thermal Design Power (TDP) as low as 65 watts, and affordable prices. This blog discusses workloads in this market segment and AMD EPYC 4004 processors’ performance benefits.

With boost rates up to 5.7 GHz, configurations ranging from 4 to 16 “Zen 4” cores over up to 2 Core Complex Dies (CCDs), and from 8 to 32 threads with Simultaneous Multi-Threading (SMT) enabled, AMD EPYC 4004 Series Processors are a reliable option. Every AMD EPYC 4004 processor includes Gen 3 Infinity Fabric architecture, which supports up to 32 Gbps of die-to-die bandwidth, up to 192GB of DDR5-5200 RAM with ECC enabled, and up to 28 PCIe Gen 5 lanes from the processor, with additional lanes available based on system vendor design specifications.

AMD EPYC 4584PX

Technical Details

Each CCD offers up to 32 MB of shared L3 cache, for a total of up to 64 MB per processor. Packages including all of these are offered at low Thermal Design Power (TDP) levels of 65 to 170 watts.

The tried-and-true AM5 socket is used by all AMD EPYC 4004 variants, providing flexible deployment choices for a range of computing requirements. AMD 3D V-Cache die stacking technology is used by the 12-core AMD EPYC 4484PX and the 16-core AMD EPYC 4584PX, doubling the maximum L3 cache to 128 MB per unit.

Only to the degree that a feature improves efficiency and performance is it beneficial. Small companies and hosting providers need strong systems that can handle demanding workloads while keeping acquisition and running costs under control. In addition to the simplified memory and I/O capabilities that discussed earlier, servers with high-performance AMD EPYC 4004 CPUs provide attractive cost-to-performance ratios across critical customer applications.

By comparing the performance and possible cost savings of 16-core 4th Gen AMD EPYC 4004 processors to those of the competition, let’s take a deeper look at the outstanding performance and value these processors provide to the market.

Utilization Examples

Broadly speaking, the AMD EPYC 4004 CPU is versatile, performant, and economical for a variety of computing workloads, from compute-intensive jobs to common business applications. Among the instances are:

General computing: Workloads including web serving, DNS administration, file sharing, printing, email hosting, messaging, CRM, and enterprise resource planning (ERP) are well handled by AMD EPYC 4004 CPUs.

Web serving and e-commerce: Applications requiring scalability and dependability, such as web serving, are especially well-suited for AMD EPYC 4004 CPUs.

Applications requiring a lot of computation: AMD EPYC 4004 processors with 16 cores and 32 SMT threads speed up compilation and can handle demanding applications.

Gaming: Even the most demanding games run very well because to the powerful “Zen4” CPUs.

Processor Price

Performance and price must be balanced by small and medium-sized enterprises, especially when choosing processors for server construction. In this context, processor costs are an important factor to take into account. Here, it will use the following to demonstrate how much more affordable AMD EPYC 4004 CPUs are than those of their rivals.

AMD EPYC 4584PX 16-core: $699, or around $43.69 per core

Intel Xeon E-2388G 8-core processor: $606 (about $75.75) per core

Intel Xeon E-2488 8-core processor: $606 (about $75.75) per core

Put otherwise, the cost of an AMD EPYC 4584PX CPU core is just around 58% that of an Intel Xeon core. These costs highlight the comparative pricing and leading performance capabilities of AMD EPYC 4004 processors, which makes them an appealing choice for small and medium-sized enterprises trying to maximize their server infrastructure expenditures.

Fundamental Leadership in Workload

Comparing a single-socket 8-core Intel Xeon E-2488 system to a single-socket 16-core AMD EPYC 4584PX system, illustrates the ~1.73x SPECrate 2017_int_rate_base performance uplift achieved by the latter. A performance gain of around 1.50x is also achieved using the identical AMD EPYC 4584PX and Intel Xeon E-2488 CPU.

Advantage of Power Efficiency

Small- to medium-sized businesses and huge data centers struggle with energy costs. The SPECpower_ssj 2008 benchmark standardizes energy efficiency evaluation of volume server-class computers.

The power efficiency of 4th-generation AMD EPYC 4004 CPUs leads SPECpower_ssj 2008. A 16-core AMD EPYC 4584PX system with ~1.81x more energy efficiency than an Intel system. Once again, the AMD EPYC 4004 CPU offers a noteworthy increase in performance per CPU dollar of around 1.57 times.

Java Server Side

The SPECjbb 2015 benchmark simulates a business IT environment that manages online activities, data mining jobs, and point-of-sale transactions in order to assess server-side Java programs. This benchmark is significant to JVM suppliers, hardware manufacturers, Java developers, researchers, and academics because of how widely used Java is. Max-jOPS, which measures maximum throughput without stringent response time restrictions, and critical-jOPS, which measures maximum throughput with reaction time limits, are the performance metrics used by SPECjbb 2015.

A single-socket 16-core AMD EPYC 4584PX system achieves ~2.59x the performance of the same Intel processor on the SPECjbb 2015 composite critical jOPS metric at a performance/CPU dollar result of up to ~2.24x, and ~2.02x the performance of a single-socket 8-core Intel Xeon E-2388G system on the SPECjbb 2015 composite max jOPS metric.

Processing Transactions for Small and Medium-Sized Enterprises

Online transaction processing (OLTP) benchmark TPC Benchmark C describes a set of functional criteria that are common to all transaction processing systems, independent of operating system or hardware. The TPROC-C workload was developed and generated using the HammerDB benchmark tool.Image Credit To AMD

Because the results of this open-source workload do not adhere to the TPC-C Benchmark Standard, they cannot be compared to published TPC-C results. Instead, they are generated from the TPC-C Benchmark Standard. On the other hand, HammerDB TPROC-C is a useful tool for quickly evaluating the performance of database systems, contrasting databases, and system optimization.

A 16-core AMD EPYC 4584PX single-socket system is shown in Figure, delivering about 1.50x MySQL TPROC-C TPM performance and approximately 1.30x performance/CPU dollar compared to the identical Intel processor.

Processing of Media

Image Credit To AMD

The increased demand for high-quality video material has made media processing an increasingly typical edge activity. A flexible multimedia framework, FFmpeg may be used to encode, decode, transcode, stream, filter, and play back video files in a variety of historical and contemporary formats and standards. In comparison to the same Intel system, a single-socket, 16-core AMD EPYC 4584PX system can achieve average FFmpeg encode speed-ups of ~2.13x (8 jobs @ 2 threads per job), ~2.25x (4 jobs @ 4 threads per job), and ~2.45x (2 threads @ 8 cores per job) at a processor cost that is only about 15% higher.

Read more on govindhtech.com

The future of PC gaming just got a significant boost with the unveiling of GDDR7 memory by Micron Technology at Computex 2024. This next-generation memory standard promises to revolutionize graphics cards, pushing the boundaries of performance and efficiency. Here's a deep dive into what GDDR7 offers and how it will reshape the gaming landscape. GDDR7 Blazing-Fast Speeds and Unmatched Bandwidth The defining feature of GDDR7 is its sheer power. Compared to its predecessor, GDDR6, GDDR7 boasts: Unprecedented Data Transfer Rates: It can transfer data at a staggering 32Gb/s, nearly double the speed of GDDR6's 16Gb/s. Massive Bandwidth: With a bandwidth of 1.5Tb/s, GDDR7 surpasses GDDR6's 768Gb/s by a significant margin. This translates to a smoother and more responsive gaming experience, especially for high-resolution and high-framerate gaming. These improvements are a direct result of Micron's innovative 1-beta technology and the implementation of a pulse-amplitude modulation (PAM) signal interface. This interface allows for transmitting three bits of data within two clock cycles, effectively increasing data transmission efficiency by 50% compared to GDDR6. A Smoother, More Immersive Gaming Experience The benefits of GDDR7 extend far beyond raw performance numbers. Here's how it will directly impact your gaming experience: Higher Frame Rates: Expect significant frame rate boosts, especially in demanding titles at resolutions like 1080p, 1440p, and even 4K. Even with ray tracing enabled, GDDR7 promises a smoother and more visually stunning experience. Reduced Response Times: The faster data transfer speeds of GDDR7 translate to lower response times. This translates to crisper visuals and a more responsive gameplay experience, especially in fast-paced games. Improved Power Efficiency: Despite its increased performance, GDDR7 is surprisingly energy-efficient. Micron claims a 50% improvement in efficiency compared to GDDR6. This not only reduces power consumption during gameplay but also allows for cooler-running graphics cards. When Can We Expect GDDR7 Graphics Cards? While GDDR7 represents a significant leap forward, it won't be immediately available in every graphics card. Here's a breakdown of the timeline: Sample Shipments Begun: Micron has already started delivering test samples of GDDR7 memory to major manufacturers like AMD, Nvidia, and Intel. Implementation in Upcoming Flagships: We can expect to see GDDR7 first integrated into the high-end models of the next-generation graphics card series, such as the potential "Super" variants of Nvidia's RTX 50 series or top-tier models in AMD's Radeon RX 8000 lineup. Mainstream Adoption: Widespread adoption of GDDR7 in mainstream graphics cards will likely take some time. Full-scale production of GDDR7 is expected to begin by the end of 2024, and it might take several months for it to trickle down to budget-friendly graphics cards. Unveiling the Future: What to Expect from GDDR7 The arrival of GDDR7 marks a significant turning point in graphics card technology. Here's what this new standard paves the way for: Hyper-Realistic Gaming: With its increased memory bandwidth, GDDR7 opens doors for even more detailed textures, complex lighting effects, and higher resolution rendering, blurring the lines between reality and virtual worlds. Enhanced VR Experiences: The demanding nature of virtual reality (VR) requires immense processing power and memory bandwidth. GDDR7's capabilities could revolutionize VR experiences, creating smoother visuals and faster loading times. Evolving AI in Games: Artificial intelligence (AI) is playing an increasingly important role in modern games, driving realistic enemy behavior and dynamic environments. GDDR7's improved memory performance could pave the way for even more sophisticated AI in games. FAQs: Q: Will GDDR7 make my current graphics card obsolete? A: Not necessarily. While GDDR7 offers substantial performance improvements, your current graphics card will likely remain functional for many games. However, if you're looking to experience the latest titles at their highest settings and smoothest frame rates, upgrading to a GDDR7-equipped graphics card in the future could be a worthwhile investment. Q: Are there any downsides to GDDR7? A: While Micron claims improved power efficiency, it's important to note that higher performance often comes at the cost of increased heat generation. Independent testing will be crucial to confirm the actual thermal performance of GDDR7 cards. Additionally, the initial adoption of GDDR7 will likely be limited to high-end models, potentially leading to a higher price point compared to GDDR6 counterparts. Q: When should I upgrade to a GDDR7 graphics card? A: The decision to upgrade depends on your individual needs and budget. If you're satisfied with your current gaming experience, there's no need to rush into an upgrade. However, if you're looking for the absolute best performance for demanding games or future-proofing your system, waiting for a GDDR7-equipped graphics card in the high-end or upper-midrange segment might be a good strategy. Q: Are there any alternatives to GDDR7? A: While GDDR7 is currently the most advanced memory standard for graphics cards, other technologies are being explored. GDDR7X, a potential future iteration, is rumored to offer even higher bandwidths. Additionally, high-bandwidth memory (HBM) is another option, but its higher production cost typically limits its use to high-performance computing applications.

Furnace Transformers: Powering the Heart of Industrial Heating

Introduction

In heavy industries where high-temperature processes are essential, Furnace Transformers play a critical role by supplying specialized power to electric furnaces. Engineered to handle extremely high currents at low voltages, these transformers ensure efficient, stable, and reliable power delivery to melting, refining, and heat treatment operations.

What is a Furnace Transformer?

A Furnace Transformer is a specially designed transformer that steps down high voltage to a low voltage, high current supply required for electric furnaces used in industries like steel, metal processing, and foundries. It is built to withstand heavy electrical and thermal stresses.

How Does It Work?

The transformer receives high-voltage electrical power from the grid.

It steps down the voltage to a much lower level suitable for the furnace (typically a few hundred volts).

It simultaneously provides very high current to meet the furnace’s heavy power demand.

 Purposes

To supply low-voltage, high-current power to electric furnaces

To ensure stable voltage and current under heavy load conditions

To protect furnace circuits from electrical faults

To withstand thermal and electrical stresses in harsh industrial environments

 Key Features

High current capacity with low voltage output

Heavy-duty insulation and cooling systems

Robust core and winding design for durability

Oil-immersed or dry-type variants available

Overload and short circuit protection capabilities  

Efficient thermal management with ONAN or ONAF cooling

 Benefits

 ✅ Ensures efficient and stable furnace operation ✅ Prolongs furnace lifespan by protecting electrical circuits ✅ Reduces downtime through reliable performance ✅ Handles extreme electrical and thermal stresses ✅ Improves overall energy efficiency in heating processes ✅ Customizable to fit various furnace types and capacities

 Applications

Steel and iron manufacturing plants

Metal melting and refining industries

Foundries and casting units

Heat treatment facilities

Electric arc furnaces (EAF) and induction furnaces

Glass manufacturing and ceramics industries

 Conclusion

Furnace Transformers are indispensable for industries relying on electric heating processes. Their ability to deliver high current at low voltage safely and reliably ensures optimal furnace performance, helping industries achieve quality production and energy efficiency under demanding conditions.

Company Details:

📍 Company Name: Padmavahini Transformers 🌐 Website: Padmavahini Transformers 📞 Contact No: +91 99430 49222 📧 Email: [email protected] 📍 Address: S. F. No. 353/1, Door No. 7/140, Ruby Matriculation School Road, Keeranatham, Saravanampatti, Coimbatore, Tamil Nadu - 641035, India

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Did you know? The new Intel Raptor Lake Refresh “Core Series 2” outperforms its predecessor by 14% in single-core performance, all while being more power-efficient. With a focus on boosting your computing experience, this series delivers impressive speed and efficiency for gaming, productivity, and creative work. This upgrade features a 14-core/20-thread CPU, based on the same Intel 7 process node, but with higher clock speeds and lower TDP at just 45W. It’s ideal if you're looking for raw power without sacrificing energy savings. These processors might be perfect for your next custom PC build. Thinking about an upgrade? Check out GroovyComputers.ca for high-quality, custom computer builds tailored to your needs. Keep your setup ahead in performance and efficiency. What would you use a faster, more power-efficient CPU for? Explore your options today and elevate your computer game! #TechInnovation #GamingPC #CustomBuilds #IntelRaptorLake #PerformanceUpgrade #PowerEfficiency #PCMasterRace #ComputerHardware #GamingGear #TechNews #GroovyComputers

Did you know? The new Intel Raptor Lake Refresh “Core Series 2” outperforms its predecessor by 14% in single-core performance, all while being more power-efficient. With a focus on boosting your computing experience, this series delivers impressive speed and efficiency for gaming, productivity, and creative work. This upgrade features a 14-core/20-thread CPU, based on the same Intel 7 process node, but with higher clock speeds and lower TDP at just 45W. It’s ideal if you're looking for raw power without sacrificing energy savings. These processors might be perfect for your next custom PC build. Thinking about an upgrade? Check out GroovyComputers.ca for high-quality, custom computer builds tailored to your needs. Keep your setup ahead in performance and efficiency. What would you use a faster, more power-efficient CPU for? Explore your options today and elevate your computer game! #TechInnovation #GamingPC #CustomBuilds #IntelRaptorLake #PerformanceUpgrade #PowerEfficiency #PCMasterRace #ComputerHardware #GamingGear #TechNews #GroovyComputers

#actionretro  #speedup #linux #gpu s #ubuntu_lover_on_macbook_a ir_inlahve_guy @actionretro @northridgefix @learnelectronicsrepair .@debian @debian @linux @ubuntu @cnet @ techpowerup @pcwelt @radioshack @wired @wireduk @archlinux @xfceofficial @youtube turnoff screen composition andor pick lean efficient ones like co mpton derivatives ‎ #actionretro  istrafed you used an ivybridge lowpoer U cpu and a mesa renderer on ivys4000 ubuntu without dedicated gpu whi chmeans ure fxckt  youcan hack it abitmore inthe config file about some intel renderer tweaks  eventually vsync off tearfree off and such andforemost  listhardware‎ lspci  lsusb ************************** config file like xorg.conf‎ Driver "intel" #mayexist BusID "PCI:0:2:0" Chipset "PCI/VEN_8086&DEV_xxxx" #xxxx needs tobe your cpu code like 0316 orwhatever  Option "Accel" "True" Option "AccelMethod" "SNA" # instead ‎of glamor Option"DRI" "3" Option "Vsync" "False" Option "Triplebuffer" "True" Option "SwapLimit" "2" Option "Tearfree" "False" Option "Pageflip" "True" Option "GLXVblank" "True" ***************************** thereare m a n y more from ditheringmode virtualheads xvpreferove rlay  buffercache  hardwarecursor tiling colorkey  hwrotation  xvmc  and whatnot allofthese you should change to the syntax of ubuntu  but the d r i v e r triggers may be the same becareful thatit doesnot break the system eventually change one option at a time ie like in bios tweaking ‎you should do some things about temporary s w a p f i l e s make a swap memory especiallywith ssd and maxedout 4gb ram itis hard totell ifyoucan change much inthe bios settings typically helpful is somewhat tightening the ram latency c a u t i o u s l y the latency of pci clocks where throughput and responsiveness sho uld balance some prefer 64clocks some prefer 128 clocks while  youcan dothis manually inlinux whenthe gpu likes 255clocks longwa itout overclocking an ivy -U lowpower cpu mayhave reserves but itis really a powerefficiency model not a performance model notyourproblem but painintherarse is dedicated gpu  nvidia doesnotlike realtime modes prefers meta drivers like bumblebee primus that switch between the gpu s but add extra layer of shxitball or set the dedicated gpu over dri_prime and or offload pick. maybe youget a fewframes extra goodluck ask the pros  ilovemycomputerguy

#actionretro #speedup #linux #gpu s #ubuntu_lover_on_macbook_air_inlahve_guy @actionretro @northridgefix @learnelectronicsrepair .@debian @debian @linux @ubuntu @cnet @techpowerup @pcwelt @radioshack @wired @wireduk @archlinux @xfceofficial @youtube turnoff screen composition andor pick lean efficient ones like compton derivatives ‎ #actionretro istrafed you used an ivybridge lowpoer U cpu and a…

Compact Sub-Station: Efficient Power Solutions for a Smarter Future

In today's fast-paced world, reliable and efficient power distribution is critical for industries, urban infrastructure, and commercial spaces. A Compact Sub-Station (CSS) serves as a game-changing solution, offering space-saving, high-performance energy distribution tailored to modern needs.

What is a Compact Sub-Station?

Compact Sub-Station is a complete electrical distribution system containing the vital parts such as transformers, circuit breakers, and switchgear combined into one encased system. The compact and weather-resistant structure, with excellent efficiency, is ideal for limited-space areas that can provide trouble-free power supply with less maintenance.

Why Use Compact Sub-Stations?

1. Space Optimization

Conventional power plants need plenty of space and infrastructure. CSS, on the other hand, is a compact, self-sustained system, which makes it ideal for cities, industrial sites, and off-grid areas.

2. Enhanced Safety & Reliability

Housed in a sturdy metal or polymer case, CSS systems provide greater safety from electrical failures, environmental exposure, and outside interferences. This results in safer and more reliable power distribution.

3. Cost-Effective Installation & Maintenance

In contrast to traditional substations that involve significant civil work, a Compact Sub-Station is factory-assembled, saving installation time and related expenses. Its modular construction also allows for simple maintenance and upgrades.

4. Energy Efficiency & Sustainability

CSS solutions today include energy-efficient transformers, minimizing power loss and encouraging sustainable energy consumption. Most are also compatible with renewable energy sources, paving the way for a cleaner future.

Applications of Compact Sub-Stations

Compact Sub-Stations find applications in many industries, including:

• Industrial Plants – Offering problem-free power delivery in factories.

• Commercial Complexes – Serving smooth power distribution to shopping complexes, offices, and skyscrapers.

• Renewable Energy Projects – Facilitating solar and wind farms with credible energy distribution.

• Construction Sites – Offering transient but effective power solutions.

Future of Compact Sub-Stations

As urbanization and industrialization are expanding, the requirement for smaller, efficient, and intelligent power solutions will continue to increase. Incorporation of IoT and AI-driven monitoring systems will further optimize the efficiency and predictive maintenance of CSS, allowing real-time monitoring while ensuring power supply without interruptions.

For organizations looking for economical, space-saving, and dependable power distribution, investing in a Compact Sub-Station is the best option. Not only does it guarantee efficient operation, but it also supports a green and energy-efficient tomorrow.

If you are searching for tailored Compact Sub-Station solutions, our organization provides high-quality, long-lasting, and advanced power solutions specifically designed to cater to your needs. Get in touch with Pavika Power Equipment today to find out how we can power your future!.Call or visit www.pavikapowerequipment.in today.