Stay connected with wireless. Learn about the difference between 2.4GHz and 5GHz wireless signals within the industrial markets.
Learn the differences between bandwidth and latency and how they impact internet use from streaming to gaming.
To understand the difference between IOPS and throughput, it’s helpful to think of a storage system as a highway. IOPS measures the number of cars (i.e., read and write operations) that can pass through a given section of the highway in one second. Throughput, on the ot...
How Internet Speed Is Measured Internet speeds are generally measured based on “throughput,” or how much data is actually being transferred at a given time. This can vary based on your equipment, how many users are on the network, and other factors. Websites like speedtest.net and fast.co...
Speed, latency & load times The performance differences between IPv4 and IPv6 can vary based on network configurations, infrastructure, and specific use cases. While IPv6 offers several theoretical advantages, real-world performance comparisons yield mixed results. ...
efficient Wi-Fi solutions. Two prominent contenders in this field are the IPQ6010 and IPQ6018, both of which offer cutting-edge features for the 802.11ax Wi-Fi 6 standard. In this article, we will explore the key differences between these two solutions, focusing on clock speed and NPU ...
pipelining is a technique used in processors to increase instruction throughput. the accumulator can be one of the pipeline stages, storing intermediate results between stages to facilitate concurrent execution of multiple instructions. how does an accumulator contribute to sound processing or audio ...
Transfer Speed Wi-Fi speed depends on how strongly the signal carries between the Wi-Fi router and the user. If the signal is weak, the user will notice significantly slower data transfer speed, with delays on particularly heavy amounts of data. Text-based data will still move fairly quick...
Industrial IoT (IIoT): With their robust wireless capabilities, these SoCs can support large-scale IIoT deployments, ensuring reliable communication between sensors, devices, and control systems. Smart Cities: IPQ9574's higher throughput and connectivity options make it suitable for powering Wi-Fi ne...
Understanding the difference between goodput and throughput is essential for network diagnosis and optimization. High throughput with low goodput might indicate significant overhead or error rates, leading to inefficient data transmission, whereas high goodput indicates efficient use of network resources for...