Revenue earned by consumer broadband value-added services (BVAS) more than doubled during 2004 -- At the beginning of the year it was running at an annual rate of about $3.3 billion worldwide. By the end of the year the figure was $6.9 billion. This is the first time it has been possible to estimate the growth of this new market, using the data provided by the second edition of Point Topic's report on The Consumer BVAS Market. The BVAS market is vitally important for service providers who need to find ways of increasing the revenue they receive from broadband services. The 2004 results are good news for them from this point of view. Most value-added services delivered over broadband increased in both users and total revenues. Services such as video over broadband, music and voice over IP (VoIP) all grew strongly. The increase in the run-rate of revenues was much steeper than the growth in the number of consumer broadband lines, which grew about 45 percent to 131 million, or in consumer broadband access revenues, which grew by about 22 percent to $39 billion. Price cuts by both DSL and cable operators resulted in revenues growing more slowly than the number of lines.
The rapid evolution of artificial intelligence (AI) and hyperscale cloud computing is fundamentally reshaping data center infrastructure, and liquid cooling is emerging as an indispensable solution. As traditional air-cooled systems reach their physical limits, the IT industry is under pressure to adopt more efficient thermal management strategies to meet growing demands, while complying with stringent environmental regulations. Liquid Cooling Market Development The latest ABI Research analysis reveals momentum in liquid cooling adoption. Installations are forecast to quadruple between 2023 and 2030. The market will reach $3.7 billion in value by the decade's end, with a CAGR of 22 percent. The urgency behind these numbers becomes clear when examining energy metrics: liquid cooling systems demonstrate 40 percent greater energy efficiency when compared to conventional air-cooling architectures, while simultaneously enabling ~300-500 percent increases in computational density per rac...