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Logitech’s $999 4K livestreaming camera is triple the price of its 1080p model

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Logitech is expanding its Mevo lineup of live-streaming cameras for creators. The company’s new Mevo Core shoots in 4K, meaning, unlike the 1080p Mevo Start we reviewed two years ago, cropping and digital zooms won’t lead to overly grainy video. However, the tradeoff is pricing, as the new model will set you back three times as much for a three-camera setup.

The Mevo Core continues the lineup’s trajectory of wireless multicam live-streaming directly to platforms like YouTube, Twitch and Facebook. (Of course, you can also record content to upload later.) The $999 package ships as a body only, although Logitech says it will sell lens bundle kits through Amazon and B&H Photo Video. Either way, you’ll need at least one Micro Four Thirds (MFT) lens to get started, and the company says any powered or manual MFT lens will work on day one.

The camera has a large 4/3 CMOS sensor, which Logitech says diminishes noise and improves low-light performance and depth of field compared to the 1080p model. The Core shoots in 4K at 30fps for recording content to upload later; if you’re live-streaming, you can instead use 1080p at 30fps. This model supports WiFi 6E, which could help with network latency and stability if your router also supports it.

Lifestyle marketing photo of the Logitech Mevo Core livestreaming camera. View from slightly above, facing its front-left side. It’s mounted on a tripod with a dirt field (blurred) visible behind it.Lifestyle marketing photo of the Logitech Mevo Core livestreaming camera. View from slightly above, facing its front-left side. It’s mounted on a tripod with a dirt field (blurred) visible behind it.

Logitech

The camera’s body is noticeably bigger than that of the Mevo Start. At 3.5 x 3.5 x 3.25 inches, it has a similar depth and height but is about twice the width. With its battery installed (and no lenses mounted), it weighs 1.5 lbs.

Logitech says its audio is upgraded, too. It has a built-in three-microphone array with noise cancellation. You can also connect an external mic (or other audio source), which we found essential in the Mevo Start. We’ll have to wait and see if the Core’s built-in mics fare much better.

The Mevo Core’s battery life is estimated at six hours. If you need more time, you can plug an external power source into its USB-C port. It also includes an HDMI port, a 3.5mm one (for analog audio), and a microSD card slot. Logitech says it can double as an (incredibly expensive) wired or wireless HD webcam.

Like previous models, the Mevo Core works with Logitech’s Mevo app (where you can adjust things like focus, zoom, and aperture) and Multicam app to set up multi-viewpoint recording or streaming.

The Logitech Mevo Core is available for $999 for a single (body-only) camera starting today. It’s available from Logitech, Amazon, and B&H Photo Video.

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Twitch OBS and NVIDIA announce multi-encode livestreaming

Twitch OBS and NVIDIA announce multi-encode livestreaming

The world of livestreaming is on the brink of a significant shift, thanks to a collaborative effort from industry giants Twitch, OBS, and NVIDIA. They have come together to introduce a new feature that is currently in its beta phase, known as Twitch Enhanced Broadcasting. This development is poised to change the way streamers connect with their audiences, offering a more inclusive and adaptable viewing experience.

At the heart of this new feature are the GeForce RTX GPUs, which empower streamers to broadcast their content in multiple resolutions, with 1080p being the highest currently available. This means that regardless of whether viewers are tuning in through a high-speed fiber connection or a more modest mobile network, they will be able to enjoy a seamless streaming experience. The technology is not just about the present; it’s also looking ahead, preparing to support even higher bit rates and resolutions, potentially up to 4K, and the ability to handle up to five streams at once.

The future of video encoding is also an exciting aspect of this initiative. With the introduction of new codecs like AV1 and HEVC, viewers can expect high-quality video that doesn’t consume as much data, making streams more accessible without compromising on visual fidelity. The NVENC encoder, a critical component of GeForce RTX and GTX GPUs, plays a vital role in this process. It ensures that streams are of high quality while keeping the impact on system performance to a minimum.

Today many streamers must choose between higher resolution and reliable streaming. High-quality video provides more enjoyable viewing experiences but causes streams to buffer for viewers with low bandwidth or older viewing devices. Streaming lower-bitrate video allows more people to watch the content seamlessly, but introduces artifacts.

For content creators, the integration process with OBS has been designed to be as smooth as possible. Twitch Enhanced Broadcasting is engineered to automatically fine-tune OBS encoder settings, which means streamers can dedicate more time to engaging with their audience instead of fiddling with complex technical settings.

Here are some other articles you may find of interest on the subject of streaming technologies and accessories:

What is multi-encode livestreaming

Multi-encode livestreaming refers to the process of encoding a live video stream into multiple bitrates and resolutions simultaneously. This technique is essential for optimizing the viewing experience across various devices and internet speeds. Here’s a breakdown of its key aspects:

  • Encoding Process: Encoding is the conversion of raw video files into a digital format suitable for streaming. In multi-encode livestreaming, this process occurs in several different quality levels (bitrates and resolutions) at once.
  • Adaptive Bitrate Streaming (ABS): This is often used in conjunction with multi-encode livestreaming. ABS allows the video player to dynamically switch between different quality streams based on the viewer’s internet speed. For example, someone with a high-speed connection might receive a high-definition stream, while another with a slower connection gets a lower-resolution version.
  • Benefits:
    • Improved Accessibility: Viewers with varying internet speeds can access the content without constant buffering.
    • Enhanced User Experience: Provides a smooth viewing experience as it can dynamically adjust to the best possible quality.
  • Technical Requirements:
    • Processing Power: Multi-encoding is resource-intensive, requiring significant processing power.
    • Bandwidth: Broadcasting multiple streams simultaneously demands more bandwidth.
  • Applications: It’s widely used in various platforms like YouTube, Twitch, and other streaming services, especially for live events, gaming, webinars, and educational content.

Those eager to be at the forefront of this technological shift can sign up for the beta on a first-come, first-served basis. It’s advisable to register promptly to secure a spot, and upon doing so, instructions will be sent via email on how to start utilizing Twitch Enhanced Broadcasting.

AV1 vs H.264

Both are video codecs, but they differ in their efficiency and application. Here’s an overview:

  • Background:
    • H.264 (AVC): Introduced in 2003, H.264 has been the standard for video compression for many years. It’s widely compatible with various devices and platforms.
    • AV1: A newer codec, developed by the Alliance for Open Media, released in 2018. It’s designed to be more efficient and open-source.
  • Efficiency:
    • Compression: AV1 is more efficient in terms of compression compared to H.264. It can compress video files to a smaller size while maintaining the same quality, or provide better quality at the same file size.
    • Bandwidth Reduction: For streaming platforms, AV1 can significantly reduce bandwidth requirements. This is crucial for reducing costs and improving streaming quality, especially at higher resolutions like 4K.
  • Performance:
    • Encoding Time: AV1’s advanced compression techniques come with a trade-off in encoding time and computational resources. It requires more processing power and time to encode compared to H.264.
    • Decoding: While AV1 decoders are becoming more widespread, H.264 still has broader compatibility, especially in older devices.
  • Adoption and Support:
    • Industry Adoption: AV1 is gaining traction, with support from major companies like Google, Netflix, and Amazon. However, H.264 remains ubiquitous due to its long-standing presence and compatibility.
    • Hardware Acceleration: Newer devices are beginning to include hardware support for AV1, which will reduce the decoding burden and promote wider adoption.
  • Use Cases:
    • H.264: Still preferred for legacy systems or where compatibility is a key concern.
    • AV1: Ideal for high-resolution streaming services, future-proofing content, and where bandwidth efficiency is critical.

This collaboration is set to redefine the standards of livestreaming. By harnessing the capabilities of GeForce RTX GPUs for multi-encode streaming, the initiative is not just about elevating the quality of streams. It’s also about expanding the reach of content to viewers, no matter their hardware or internet limitations, ensuring that everyone can enjoy a high-quality streaming experience. As the beta progresses, those who sign up can look forward to being part of a significant shift in how live content is shared and consumed.

Filed Under: Gaming News, Technology News, Top News





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