Wireless Trend Predictions For 2024 And Their Impact On The Test And Measurement Industry


The ever-evolving landscape of wireless technology continues to shape how we connect, communicate, and innovate. Connected systems continue to grow in complexity and reliance on one another which will impact the test & measurement industry significantly.  As we step into the year 2024, several key wireless trends are set to dominate the industry, ushering in a new era of connectivity and r... » read more

Densification Of RF Designs


It’s challenging enough to deal with wireless signals at the 5G and 6G frequencies. But with increased density in chips crammed into smaller packages, higher power, beam forming, and MIMO, design requirements are very different than in the past. Simple parasitic extraction no longer is sufficient. Daren McClearnon, product manager for RF and microwave simulation at Keysight, talks about the n... » read more

AI Races To The Edge


AI is becoming increasingly sophisticated and pervasive at the edge, pushing into new application areas and even taking on some of the algorithm training that has been done almost exclusively in large data centers using massive sets of data. There are several key changes behind this shift. The first involves new chip architectures that are focused on processing, moving, and storing data more... » read more

Accelerate 5G Testing


The promise of 5G is faster and more reliable communications. To enable mobile broadband communications, 5G uses existing and new technologies to achieve extreme data throughputs. In this white paper, you will learn about the impact of the 3GPP evolution on your testing and solutions available to help you scale to production quickly. Click here to read more. » read more

FIR And Median Filter Accelerators In CodAL


5G is the latest generation of cellular networks using the 3rd Generation Partnership Project (3GPP) 5G New Radio air interface. Unlike previous generations of network (2G, 3G & 4G) which had a one-size-fits-all approach, 5G aims to address a wide range of very different applications. To flexibly support diverse quality of service requirements, network slicing is introduced to enable mul... » read more

RISC-V Wants All Your Cores


RISC-V is no longer content to disrupt the CPU industry. It is waging war against every type of processor integrated into an SoC or advanced package, an ambitious plan that will face stiff competition from entrenched players with deep-pocketed R&D operations and their well-constructed ecosystems. When Calista Redmond, CEO for RISC-V International, said at last year's summit that RISC-V w... » read more

Wireless Technology Insights: Navigating The Evolution From 5G To 6G


As 5G evolution advances, developments like the open radio access network (O-RAN) ecosystem, non-terrestrial network (NTN) infrastructure, and 5G reduced capability (RedCap) devices continue to gain momentum. Though 5G implementation is still underway, the wireless communication industry is already preparing for next-generation 6G wireless technology. With so much development happeni... » read more

Leveraging Vehicle-To-Everything Sidelink Communication For Relative Localization Of Connected Automated Vehicles 


A technical paper titled “V2X Sidelink Localization of Connected Automated Vehicles” was published by researchers at CNR-IEIIT and WiLabCNIT (Italy). Abstract: "Future automated driving relies on two pillars, (i) ultra-low-latency and reliable communications, and (ii) accurate positioning information. In particular, the knowledge of vehicle positions is becoming fundamental with the incre... » read more

Satellites Bolster 5G Through Non-Terrestrial Networks


The 3GPP plans to make 5G into a network that incorporates satellites to augment terrestrial 5G networks. These NTNs will extend the reach of 5G to regions lacking terrestrial infrastructure. Click here to read more. » read more

Exploring The 6G Spectrum Landscape


In each generation of cellular communications, new spectrum has been key to delivering more services, more capacity, and higher data throughput to end users. 5G benefited from large contiguous bandwidths of millimeter-wave (mmWave) spectrum, known as frequency range 2 (FR2). And 5G benefited from the reallocation and unlocking of midband spectrum (3.4 to 4.9 GHz) with its more favorable propaga... » read more

← Older posts Newer posts →