1050 wattage: GTX 1050 Power Consumption Guide (2023)

GTX 1050 Power Consumption Guide (2023)

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The GTX 1050 graphics card was released in 2016 as a budget graphics card, designed to offer reasonable performance for the latest games at the time without breaking the bank or blowing anyone away.

Now, with many more powerful graphics cards released, the card has not yet become irrelevant. Thanks partly to the graphics card shortage in 2020 and 2021, some people have turned back to older cards like the GTX 1050 as a stopgap. 

But if you’re now planning a budget build to handle Fortnite and Roblox, you’ll need to know which power supply works well with the GTX 1050 – read on to find out.

How Many Watts Does An GTX 1050 Use?

The GTX 1050 is a low-powered card. When used for gaming it’ll average at 64 watts, but this can rise to around 70 watts, occasionally peaking beyond that at 75 watts when under a lot of duress. It can’t exceed that due to the motherboard’s power delivery limits.

To put that into perspective, the latest RTX 3090 graphics cards will use around 5 times the amount of power. And yes they are significantly more powerful graphically too, but if you aren’t planning on playing the very latest games then a budget GTX 1050 could be just want you need.

The GTX uses minimal power when it’s idle, too – just 5 watts no matter whether you’re using a single monitor or dual screens. And if you watch a pre-rendered video on a streaming service or via a Blu-Ray then it only increases to 7 watts. Some inefficient cards can use 10 times that amount of power to watch videos.

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How Many Watts Does An GTX 1050 Use Per Hour?

The average power consumption of a GTX 1050 when gaming is 64 watt-hours per hour, which is the same as 0. 064 kilowatt-hours per hour. The average time that PC owners spend gaming a week is 8.5 hours, which means a weekly power consumption of just 0.5 kilowatt-hours.

That’s a tiny amount overall, and over the course of the year means that the graphics card will use just 28 kilowatt-hours of electricity. 

With electricity costing an average of $0.14 per kilowatt-hour, you’ll be paying less than $4 to run the card for the entire year. It still works out at around $4 even if you were to use the PC with the card being idle for a lot more than 8.5 hours, since it uses so little power.

Of course, a graphics card is just one component in a PC, and if you want to learn just how much your PC costs to run then you need to get the total of all the parts combined. Normally a graphics card uses the lion’s share of power, but with a card this basic you may have a processor or even a motherboard that uses more.

Read more: How many watts does a Gaming PC use?

What Is the Difference Between GTX 1050 and GTX 1050 Ti?

The original GTX 1050 released at the same time as the GTX 1050 Ti, although an updated version did launch later with more memory. The GTX 1050 has faster clock speeds but the GTX 1050 Ti has more memory than both 1050 versions, and slightly outperforms the standard version.

Graphics Card Idle Idle (multi-monitor) Streaming video Gaming Max-rated
GTX 1050 5 watts 5 watts 7 watts 64 watts 70 watts
GTX 1050 Ti 5 watts 5 watts 7 watts 67 watts 75 watts

When idle or watching videos, the graphics cards use identical amounts of power. It’s only when you put them under the stress of gaming that there’s a notable difference, and even that is minimal.

What Power Supply Do I Need For An GTX 1050?

The minimum recommended power supply for a GTX 1050 is 300 watts, but this is based on installing the card on a low-level PC. If you’re using the card in a mid-range PC then you might need to upgrade to a 450-watt power supply instead.

The way to calculate which power supply you need is to add together the peak power consumption of all the components of your PC – primarily your graphics card, processor, motherboard, and storage as well as anything else you have plugged in.

Add 20% to this total – this gives you extra capacity to cope if there are any power spikes, meaning your power supply’s maximum capacity won’t be exceeded and it won’t fail and restart or shut down. Round this total up to the nearest 50, since power supplies generally come in 50-watt increments, to see which supply you should buy.

Also bear in mind upgrade potential – if you have the spare budget, you might want to choose a bigger power supply so that you don’t need to swap that out when you upgrade other components later down the line.

The Best Power Supply For An GTX 1050

The best power supply for a GTX 1050 depends on your PC build, but a 450 watt option should be more than sufficient for most low and mid range PCs. You should buy one from a well-known brand, ideally with an 80+ efficiency rating.

EVGA 450 W3 Power Supply

  • Quiet and intelligent auto fan for near-silent operation
  • Heavy-duty protections, including OVP, UVP, OCP, OPP, SCP, and OTP
  • Active power factor correction
  • 80 PLUS certified

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This EVGA power supply has everything you need. EVGA is a well-known manufacturer that produces quality components, and this 450-watt power supply will easily handle the GTX 1050 even in a decent mid-spec build.

It’s rated 80+ White for efficiency, which isn’t the best – normally you would look for 80+ Gold or better, but with a power supply at this low capacity it’s not as much of an issue.

Read more: Power Supply Ratings Explained

What GTX 1050 Power Cable Do I Need?

You don’t need a power cable for the GTX 1050. Unlike more powerful graphics cards, it can draw all the power it needs directly from the motherboard through the PCIe slot that it’s plugged into.

Motherboards are capable of delivering up to 75 watts via a PCIe slot, which is plenty for what the GTX 1050 needs.

GTX 1050 Power FAQs

Does a GTX 1050 require power?

A GTX 1050 graphics card needs power, but not external power – you don’t need to run a cable directly from the power supply to the graphics card, like you do with most graphics cards. It’ll draw what it needs from the motherboard, which is itself connected to the power supply.

Is 240 watts enough for a GTX 1050?

A 240-watt power supply might be enough for a PC with a GTX 1050, but only if the other components are very basic. In a PC designed for games – even low-demand games – you’ll want a power supply with at least a 300-watt capacity.

Can a 500-watt power supply run a GTX 1050?

A 500-watt power supply is more than capable of handling a GTX 1050 graphics card, even in a reasonable mid-spec build. 450 watts is normally the most you’d need with this card, so 500 watts gives you a little extra capacity for upgrading your PC in the future.

Related Posts:

  • GTX 1050 Ti Power Consumption Guide
  • RX 580 Power Consumption Guide
  • GTX 1650 Power Consumption Guide

NVIDIA GeForce GTX 1050 And GTX 1050 Ti Review: Low Power, Low Price Pascal

Although rumors had been circulating for a while, NVIDIA went ahead and made the GeForce GTX 1050 and GeForce GTX 1050 Ti official last week with an announcement featuring a number of details about the cards. In the announcement, NVIDIA covered some of the speeds and feeds, revealed a number of partner board designs, and revealed expected pricing. Performance, however, was not discussed.

Today we’re able to tell all, with a trio of GeForce GTX 1050 and GTX 1050 Ti cards from MSI and EVGA. We’ve got two cards from MSI – in both plain vanilla and Ti flavors – along with an EVGA GeForce GTX 1050 Ti SuperClocked Edition.

Before we dive in, here are the GPUs’ reference specifications, as outlined by NVIDIA. Keep in mind, however, that all of NVIDIA’s partners are offering custom GeForce GTX 1050 and GTX 1050 Ti cards, so these specs are more of a guideline than the rule…

GeForce GTX 1050 And 1050 Ti Cards From MSI and EVGA

NVIDIA GeForce GTX 1050 & 1050 Ti
Specifications & Features
NVIDIA GeForce GTX 1050  NVIDIA GeForce GTX 1050 Ti
GPCs 2 2
Streaming Multiprocessors 5 6
CUDA Cores (SP) 640 768
Texture Units 40 48
ROP Units 32 32
Base Clock 1354MHz 1290MHz
Boost Clock 1455MHz 1392MHz
Memory Clock (Data rate) 3504MHz (Effective Speed — ~8Gbps) 3504MHz (Effective Speed — ~8Gbps)
L2 Cache Size 1024KB  1024KB 
Total Video Memory 2048 MB GDDR5 4096 MB GDDR5
Memory Interface 128-Bit 128-Bit
Total Memory Bandwidth 112 GB/s 112 GB/s
Text. Filtering Rate (Bilinear) 54.2 GigaTexels/sec 61.9 GigaTexels/sec
Fabrication Process 14 nm 14 nm
Transistor Count 3.3 Billion 3.3 Billion
Connectors 1 x Display Port
1 x Dual-Link DVI
1 x HDMI
1 x Display Port
1 x Dual-Link DVI
1 x HDMI
Form Factor Dual Slot Dual Slot
Power Connectors NONE NONE
Recommended PSU 300 Watts 300 Watts
TDP 75 Watts 75 Watts
Thermal Threshold 97°C 97°C
Price $109 MSRP — Find Them At Amazon $139 MSRP — Find Them At Amazon

The GeForce GTX 1050 and GTX 1050 Ti are built around a new NVIDIA Pascal-based GPU, that’s somewhat smaller than previous offerings. The GPU is codenamed the GP107, and it is essentially a scaled-down version of the GP106 featured on the GTX 1060, but targeted at a more mainstream audience. Like its big brothers though, the GP107 supports all of the main features of Pascal, like Simultaneous Multi-Projection (SMP), Ansel, Fast Sync, and enhanced memory compression. If you’d like more detailed explanations of these features, please see our coverage of the GeForce GTX 1080.

The GP107 is manufactured on Samsung’s 14nm FinFET process node. The GPU is comprised of roughly 3.3 billion transistors and has a die size measuring only 135mm2. That’s somewhat smaller than the 148mm2 area of the Maxwell-based GM107, but what’s more interesting is that the GPU is manufactured at a different foundry. Unlike all of the other Pascal-based GPUs in NVIDIA’s line-up, which are produced at TSMC, NVIDIA tapped Samsung for the GP107.

In its full implementation, as found on the GTX 1050 Ti, the GP107 features 6 streaming multiprocessors (SM) with a total of 768, single-precision CUDA cores, arranged in 2 graphics processing clusters (GPC). Each GPC includes a dedicated raster engine and three SMs with 128 CUDA cores, eight texture units, a shared memory unit, and some L1 cache. There is 1024KB of L2 cache on the chip, and a total of 48 texture units. Each SM is also outfitted with a PolyMorph Engine that handles vertex fetch, tessellation, viewport transformation, vertex attribute setup, and perspective correction. It’s also in the PolyMorph Engine that a new unit enables Simultaneous Multi-Projection. Note, however, that on the GeForce GTX 1050, one SM has been disabled, so there are only 640 total CUDA cores.

The GP107 also features four 32-bit memory controllers, for 128-bits in total. Linked to each 32-bit memory controller are eight ROPs, for a total of 32, and 128 KB of that aforementioned L2 cache. GeForce GTX 1050 Ti cards will be outfitted with 4GB of GDDR5 memory, while the standard GTX 1050 will have only 2GB. The memory clock is the same on both cards (7Gbps, effective), however.

Another notable change versus other Pascal-based cards is that NVIDIA won’t be making a Founder’s Edition GTX 1050 or 1050 Ti. Instead, NVIDIA’s partners will be bringing custom boards to market, like the MSI and EVGA cards we’ve shown you here. Speaking of MSI and EVGA, each company’s cards actually feature somewhat different PCBs, but all of them are relatively small. The coolers are also different, but are fundamentally similar. Since these cards do NOT require additional power feeds and come in under the 75W limit of a x16 PCI Express slot, heat output is not a major consideration. As such, the cards feature basic aluminum heatsinks and single cooling fans. There will be higher-clocked models on the market at some point, however, with additional power connectors, which should allow for more overclocking headroom.

The MSI and EVGA cards featured here are factory overclocked, but still come in under the 75W mark. The EVGA GeForce GTX 1050 Ti has base / boost GPU clocks of 1354MHz / 1468MHz. The MSI GTX 1050 Ti OC comes in every so slightly lower at 1341MHz / 1455MHz. And the 2GB MSI GeForce GTX 1050 OC arrives with a 1404MHz base clock and a 1518MHz boost clock.

The outputs on the GeForce GTX 1050 and GTX 1050 Ti are identical, but are somewhat scaled down versus higher-end Pascal-based GPUs. The cards’ outputs consist of a one DisplayPort, an HDMI 2.0b port, and a dual-link DVI port. The DisplayPorts are 1.2 certified and all three display outputs can be used simultaneously for multi-monitor setups.

The MSI and EVGA cards we received for testing both shipped with similar bundles as well. Both cards included a basic lit pack, registration information, and a driver / utility disc. The EVGA GeForce GTX 1050 Ti SuperClocked Edition also included an EVGA case badge.

«Teplolux» Alumia 1050 W — 7.0 sq.m. Ultra-thin foil heating mat

Power 75-2700 W. Warranty 25 years.

Teplolux Alumia. Ultrathin underfloor heating



  • Description
  • Features
  • Documents

Teplolux ALUMIA — thinner than a cable, more reliable than a film. nine0003

Power 150 W/m²
Cable diameter 1.08-1.49 mm
Width 0.5 m
Warranty 25 years

Designed for comfortable floor heating without filling with construction mixtures and is installed directly under the floor covering, guaranteeing warmth and comfort in any type of room.

Fits under quickly installed decorative coatings — ideal underfloor heating under laminate, parquet board, linoleum or carpet.

Teplolux Alumia combines all the advantages of cable and film underfloor heating:
• dry installation without screed
• does not raise the level of the floor
• all connections are made in the factory with the necessary control steps
• Fastest assembly – unfold and plug in the thermostat (without mounting connections)
• ready to use immediately after laying
• foil evenly distributes heat, shields electromagnetic radiation
• heating mat is grounded and electrically safe


1. Insulated heating cable between two glued foil layers.

2. Coupling with earth wire.

3. Installation wire.


Under laminate/parquet board

Under linoleum/carpet


Easy installation
Warm floor Teplolux Alumia is installed in a matter of minutes. It is enough to expand the heating mat and connect it to the thermostat.
Use immediately after installation
For this warm floor, you do not need to pour the screed and wait until it dries. Teplolux Alumia keeps within under a floor covering and at once it is ready to work!
No temperature zebra
Aluminum foil evenly distributes the heat of the heating cable over the entire surface. nine0024 Economy
The heating cable effectively converts electricity into heat. The use of Teplolux thermostats allows you to turn on the heated floor only at the right time intervals and save up to 70% of electricity.
Warm floor Teplolux Alumia does not emit harmful substances, does not burn oxygen. The heating mat is grounded. A continuous foil coating shields electromagnetic radiation.
Health and comfort
The Alumia thermolux creates an optimal comfortable temperature regime — the air temperature at the level of the legs is higher than the temperature in the head area. Teplolux Alumia does not dry out the room, completely preserving the natural humidity of the air.

Contents of the kit

  • Heating mat on foil «Teplolux» Alumia
  • Mounting tube with plug
  • Instruction manual combined with passport

nine0108 specific 150 W/sq.m.

Product type Heating mat on foil
Connection method Two-wire
Mounting type Dry-mounted
Cover type Carpet; Laminate; Linoleum; Parquet board
Room Corridor; Kitchen; living room
Package dimensions 52. 5x17x17 cm
Type of heating Comfort floor
Heating area 7.0 sq.m.
Power, W 1050
Dimensions: 50 x 1400 cm
Warranty 25 years old
Brand Teplolux
Country of origin Russia
Art. No. 2206814

Certificate EAEU RU C-RU.NV26.V.01762-21

Certificate EAEU N RU D-RU.RA01.V.48201-21

Passport. Manual. KPR.00161.03 RE(P)

  • Benefits
  • Don’t forget to buy

Benefits of the new heating cables
«Teplolux» ALUMIA

nine0108 New generation ultrathin heating mat

Designed for laminate, parquet, linoleum, carpet
Express installation without screed and glue
Tested at 15 x 3,600V load.

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