I’m not touting any one product or brand. I am trying to give some in-depth abbreviated information on different products. Please reach out if you’d like me to cover a specific product, or aspect of how it works.

1. Cisco’s Media Blueprint: In 2020, Cisco launched a Media Blueprint initiative to help media companies transition to IP-based broadcasting. The blueprint includes hardware, software, and network components that are designed to help media organizations improve agility, scalability, and efficiency.

2. Media Services Proxy: Cisco’s Media Services Proxy is a software solution that helps broadcasters to manage and deliver video streams across multiple platforms and devices. This cloud-based solution provides adaptive bit rate streaming, content encryption, and other features that are critical to modern broadcasting.

3. Acquisition of Scientific Atlanta: In 2006, Cisco acquired Scientific Atlanta, a leading provider of video production equipment and solutions. This acquisition helped Cisco to expand its portfolio of video-related products and services, and to become a major player in the broadcasting industry.

4. Partnership with NBC Olympics: In 2016, Cisco partnered with NBC Olympics to help deliver video coverage of the Rio Olympics to viewers around the world. Cisco provided networking infrastructure, video processing technology, and other solutions to help NBC deliver high-quality, low-latency video streams during the games.

Overall, Cisco has a strong presence in the broadcasting industry, with a range of products and services that help to improve the efficiency, quality, and scalability of video content delivery.

Cisco’s IP-based broadcasting blueprint is a comprehensive framework that provides media organizations with a variety of hardware, software, and network components to help them transition to an IP-based broadcasting infrastructure. 

This blueprint is designed to help organizations improve agility, scalability, and efficiency by providing them with a flexible and scalable platform for content delivery. Here are some key elements of the blueprint:

1. IP-based infrastructure: The blueprint is built on an IP-based infrastructure that provides a flexible and scalable platform for content delivery. This infrastructure includes hardware and software components that help to simplify workflows and improve efficiency.

2. Media processing: Cisco’s blueprint includes a variety of media processing tools that enable organizations to ingest, process, and distribute media content across multiple platforms and devices. These tools include transcoders, encoders, content delivery networks, and other solutions.

3. Networking and security: The blueprint also includes networking and security solutions that help to ensure that media content is delivered reliably and securely. These solutions include routers, switches, firewalls, and other network appliances that are specifically designed for media organizations.

4. Monitoring and analytics: Cisco’s IP-based broadcasting blueprint includes monitoring and analytics tools that help organizations to optimize their workflows and improve quality of service. These tools include real-time monitoring, trend analysis, and other solutions that provide valuable insights into media content delivery.

Overall, Cisco’s IP-based broadcasting blueprint provides media organizations with a comprehensive framework that helps them to transition to an IP-based infrastructure. By providing a wide range of hardware, software, and network components, the blueprint enables organizations to improve agility, scalability, and efficiency while delivering high-quality media content across multiple platforms and devices.

Cisco offers a variety of media processing tools that are part of its IP-based broadcasting blueprint.Here are some of the product names of Cisco’s media processing tools along with the specific products they work with:

1. Cisco Media Processing Platform (MPP): MPP is a platform for building media processing applications using open APIs. It can work with a variety of Cisco hardware products, including the UCS C-Series and B-Series servers, and the ASR 1000 and ISR G2 routers.

2. Cisco Transcoding Manager (CTM): CTM is a software-based transcoding solution that can transcode video content in real-time for delivery across different networks and devices. It works with Cisco’s D9800 Network Transport Receiver and other hardware products.

3. Cisco Video Processing Analytics (VPA): VPA is a real-time video analytics tool that provides insights into video quality, audience behavior, and other metrics. It works with Cisco’s DCM and PRM platforms.

4. Cisco AnyRes Live: AnyRes Live is a cloud-based video processing solution that enables live video encoding, transcoding, and distribution to multiple devices and platforms. It can work with a variety of Cisco hardware and software products, including the ASR 1000 router, the UCS C-Series server, and the cloud-based Cisco Streaming Services platform.

These are just a few examples of the media processing tools offered by Cisco. The specific products that each tool works with may vary depending on the particular solution and deployment.

Cisco Routers with & without PTP

Cisco routers can support Precision Time Protocol (PTP) to provide accurate time synchronization between different devices, networks, and applications. PTP is commonly used in industrial applications such as power grids, telecommunications, and automation to ensure precise timekeeping for critical processes.

Cisco offers a wide range of routers with and without PTP support. Some of the popular router series that offer PTP support include:

1. Cisco 829 Industrial Integrated Services Router: this router is designed for industrial and mobile applications and supports both PTPv1 and PTPv2.

2. Cisco ASR 1000 Series Aggregation Services Router: this router offers carrier-class performance and supports PTPv2 for accurate time synchronization.

3. Cisco Catalyst 3650 Series Switches: these switches can be used as routers and support PTPv2 for accurate time synchronization in enterprise networks.

4. Cisco ISR 4000 Series Integrated Services Routers: these routers support PTPv2 and offer high-performance routing and security features for branch offices and small to medium-sized businesses.

On the other hand, there are also Cisco routers that do not support PTP, which may be more suitable for customers who do not require precise time synchronization. Some examples of Cisco routers without PTP support include:

1. Cisco 800 Series Integrated Services Routers: these routers are designed for small businesses and home offices and do not support PTP.

2. Cisco 1900 Series Integrated Services Routers: these routers offer advanced threat protection and VPN connectivity but do not support PTP.

3. Cisco 2900 Series Integrated Services Routers: these routers offer a high-performance and secure platform for medium-sized businesses and do not support PTP.

It is important to note that the availability of PTP support may vary depending on the specific router model and the software version running on it.  It is always recommended to consult Cisco documentation.

If you have any questions or comments please hit me up.  If you “like” this content please 👍 

Thank you,

Nic

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Published by Nicole Gabriel

I’m a writer, engineer, and production/operations expert with over three decades in award-winning broadcast and streaming. After years in terrestrial satellite delivery, I dove headfirst into the streaming revolution—and never looked back. Today, I explore and explain how AI, tech, and infrastructure connect, evolve, and redefine what’s possible. My mission is to mentor and inspire by making complex systems simple, helping curious minds make sense of tech's past, present, and future. I believe in dreaming boldly and learning endlessly—because the frontier of what's possible is always shifting.

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