A study conducted by Kaspersky Cybersecurity Solutions showed that nearly 85% of the organizations surveyed plan to expand their use of cloud services over the next five years. This increase in cloud adoption also poses security challenges.
According to Kaspersky, the boom in hybrid cloud environments and container-based development necessitates robust security solutions to protect every process within these complex infrastructures.
Kaspersky's new ecosystem, Kaspersky Cloud Workload Security, consisting of Kaspersky Hybrid Cloud Security and Kaspersky Container Security, provides comprehensive, multi-layered protection against various types of cyber threats, including malware, phishing and rogue containers at runtime. This solution is designed to integrate seamlessly with existing Kaspersky products, ensuring comprehensive coverage of cybersecurity risks.
“With the introduction of Kaspersky Cloud Workload Security, we are offering a solution that provides exceptional protection and performance for our customers,” Timofey Titkov, Head of Cloud and Network Security Product Line at Kaspersky, said in a media statement. “Our goal is to enable organizations to strengthen their cloud security posture, protect critical assets, and maintain regulatory compliance effortlessly.”
Kaspersky Cloud Workload Security
Kaspersky Cloud Workload Security facilitates seamless migration to the cloud with its innovative and cost-effective security, allowing customers to choose the capabilities needed to protect all workloads – whether physical, virtual or in containers – across private, public or hybrid clouds. It also supports ongoing regulatory compliance for cloud infrastructures.
The new ecosystem promises to enhance companies' ability to automate information security compliance checks and predict time-to-market through faster and more efficient security assessments. Kaspersky internal tests show that this technology can save up to 30% of virtualization hardware resources when protecting private clouds, improving performance without compromising cluster integrity.
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