Since its beginning in the 1980s, network routers have evolved significantly. The greatest leap in development was observed when the World Wide Web was introduced. Network providers were suddenly faced with the challenge of having to keep up with the rapid introduction of internet services and the demand for bandwidth-intensive applications. In order to meet the demand, they invested enormous amounts in networks, which they had great difficulty in refinancing. They asked network equipment manufacturers to help them build value-added services, which in the years that followed led to a flood of new features that are now available for almost every router.
Critics argue that by adding new features but not removing obsolete ones, the cost of the routers has risen so much that they are no longer in proportion to the actual benefits. James Hamilton, VP and Distinguished Engineer at Amazon Web Services expressed this observation as follows: “The network is anti-Moore.” In this context, here are some functions that have become redundant in the course of the current technical developments.
Hardware-buffer
In their Paper Sizing Router Buffers (2004), researchers at Stanford University describe their observation that buffers with a depth of up to 2000 ms are clearly suitable for services with low bandwidth and data stream diversity. But at speeds of 10 GBit per second and diversity of up to 10 million data streams, the advantages of buffering become extremely doubtful with a typical internet backbone connection.
This story is from the September 2020 edition of Voice and Data.
Start your 7-day Magzter GOLD free trial to access thousands of curated premium stories, and 9,000+ magazines and newspapers.
Already a subscriber ? Sign In
This story is from the September 2020 edition of Voice and Data.
Start your 7-day Magzter GOLD free trial to access thousands of curated premium stories, and 9,000+ magazines and newspapers.
Already a subscriber? Sign In
Cloud endoscopy breakthrough for real-time remote diagnostics
NTT Corporation and Olympus Corporation have demonstrated the feasibility of real-time remote diagnosis and treatment using the world's first endoscopy system powered by IOWN All Photonics Network (APN) technology. The breakthrough experiment successfully processed endoscopic videos on a server located 150 km away, overcoming latency issues and enabling seamless diagnostics.
Rise of the homegrown telecom infrastructure
Telecom infrastructure, once led by US and European designs and made in China, iS Now increasingly designed and manufactured in India, marking a pivotal shift
Balancing innovation and regulation for a connected future
Crafting agile governance ensures equitable, sustainable growth, blending innovation with societal protection in a hyper-connected digital age
Driving transformative shifts towards digital leadership
India's telecom sector, driven by 5G, bold policies, and cross-sector collaborations, is paving the way to global digital infrastructure leadership
Scaling AI in data centres for the next big leap
GPU-optimised data centres are vital for advancing India’s Al ambitions, enabling it to meet growing computational demands and maintaining global competitiveness
Bridging gaps with AI's transformative communication wave
AI-driven real-time communication reshapes industries, enhancing connections, operational efficiency, and immersive experiences in a digital-first world
Weaving the fabric of CDN efficiency
Local peering transforms CDNs by cutting latency, boosting reliability, and ensuring seamless, high-speed delivery for modern digital experiences
From orbit to opportunity: Redefining connectivity
India's satcom sector is set to revolutionise connectivity through hybrid networks, bridging the digital divide and driving innovative technologies for growth
Orchestrating telecom's smart future
AI and automation can revolutionise telecom networks, crafting intelligent, selfoptimising systems to meet future demands and deliver seamless connectivity
Unlocking the true potential of IoT
Specialised silicon and 5G are set to redefine loT's future, driving AloT innovations that deliver real-time intelligence, security, and seamless connectivity