Intel Xeon Scalable Platform Built for Most Sensitive Workloads
New Security Innovations Include Intel SGX, Memory Encryption, Firmware Resilience and Breakthrough Cryptographic Accelerators
- Intel introduces new security technologies to help secure sensitive workloads and enable new opportunities to unleash the power of data in its upcoming 3rd Generation Intel® Xeon® Scalable Platform, code-named “Ice Lake.”
- Proven Intel® Software Guard Extensions comes to the volume mainstream server platform with Ice Lake, along with new technologies that include Intel® Total Memory Encryption, Intel® Platform Firmware Resilience and new cryptographic performance accelerators to address today’s most pressing data protection concerns.
- With revolutionary new capabilities, Intel’s approach is to drive continuous innovation and deep collaboration with technology partners to improve the confidentiality and integrity of data.
SANTA CLARA, Calif.--(BUSINESS WIRE)-- Intel today unveiled the suite of new security features for the upcoming 3rd generation Intel® Xeon® Scalable platform, code-named “Ice Lake.” Intel is doubling down on its Security First Pledge, bringing its pioneering and proven Intel® Software Guard Extension (Intel® SGX) to the full spectrum of Ice Lake platforms, along with new features that include Intel® Total Memory Encryption (Intel® TME), Intel® Platform Firmware Resilience (Intel® PFR) and new cryptographic accelerators to strengthen the platform and improve the overall confidentiality and integrity of data.
Data is a critical asset both in terms of the business value it may yield and the personal information that must be protected, so cybersecurity is a top concern. The security features in Ice Lake enable Intel’s customers to develop solutions that help improve their security posture and reduce risks related to privacy and compliance, such as regulated data in financial services and healthcare.
More: Intel Security Initiatives (Press Kit) | Upcoming Intel Xeon Scalable Platform Built for Customers’ Most Sensitive Workloads (YouTube Video) | Azure Confidential Computing (YouTube Video)
“Protecting data is essential to extracting value from it, and with the capabilities in the upcoming 3rd Gen Xeon Scalable platform, we will help our customers solve their toughest data challenges while improving data confidentiality and integrity. This extends our long history of partnering across the ecosystem to drive security innovations,” said Lisa Spelman, Intel corporate vice president in the Data Platform Group and general manager of the Xeon and Memory Group.
Data Protection across the Compute Stack
Technologies such as disk- and network-traffic encryption protect data in storage and during transmission, but data can be vulnerable to interception and tampering while in use in memory. “Confidential computing” is a rapidly emerging usage category that protects data while it is in use in a Trusted Execution Environment (TEE). Intel SGX is the most researched, updated and battle-tested TEE for data center confidential computing, with the smallest attack surface within the system. It enables application isolation in private memory regions, called enclaves, to help protect up to 1 terabyte of code and data while in use.
“Microsoft Azure was the first major public cloud to offer confidential computing, and customers from industries including finance, healthcare, government are using confidential computing on Azure today,” said Mark Russinovich, chief technology officer, Microsoft Azure. “Azure has confidential computing options for virtual machines, containers, machine learning, and more. We believe the next-generation Intel Xeon processors with Intel SGX featuring full memory encryption and cryptographic acceleration will help our customers unlock even more confidential computing scenarios.”
Customers like the University of California San Francisco (UCSF), NEC, Magnit and other organizations in highly regulated industries have relied on Intel to support their security strategy and leveraged Intel SGX with proven results. For example, healthcare organizations can more securely protect data — including electronic health records — with a trusted computing environment that better preserves patient privacy. In other industries, such as retail, companies rely on Intel to help keep data confidential and protect intellectual property. Intel SGX helps customers unlock new multiparty shared compute scenarios that have been difficult to build in the past due to privacy, security and regulatory requirements.
Intel is also introducing new security capabilities to improve data protection and strengthen the platform, including:
- Full memory encryption: To better protect the entire memory of a platform, Ice Lake introduces a new feature called Intel Total Memory Encryption (Intel TME). Intel TME helps ensure that all memory accessed from the Intel® CPU is encrypted, including customer credentials, encryption keys and other IP or personal information on the external memory bus. Intel developed this feature to provide greater protection for system memory against hardware attacks, such as removing and reading the dual in-line memory module (DIMM) after spraying it with liquid nitrogen or installing purpose-built attack hardware. Using the National Institute of Standards and Technology (NIST) storage encryption standard AES XTS, an encryption key is generated using a hardened random number generator in the processor without exposure to software. This allows existing software to run unmodified while better protecting memory.
- Cryptographic acceleration: One of Intel’s design goals is to remove or reduce the performance impact of increased security so customers don’t have to choose between better protection and acceptable performance. Ice Lake introduces several new instructions used throughout the industry, coupled with algorithmic and software innovations, to deliver breakthrough cryptographic performance. There are two fundamental innovations. The first is a technique to stitch together the operations of two algorithms that typically run in combination yet sequentially, allowing them to execute simultaneously. The second is a method to process multiple independent data buffers in parallel.
- Growing resilience: Sophisticated adversaries may attempt to compromise or disable the platform’s firmware to intercept data or take down the server. Ice Lake introduces Intel® Platform Firmware Resilience (Intel PFR) to the Intel Xeon Scalable platform to help protect against platform firmware attacks, designed to detect and correct them before they can compromise or disable the machine. Intel PFR uses an Intel FPGA as a platform root of trust to validate critical-to-boot platform firmware components before any firmware code is executed. The firmware components protected can include BIOS Flash, BMC Flash, SPI Descriptor, Intel® Management Engine and power supply firmware.
Privacy-preserving, trusted platforms in the upcoming 3rd generation Xeon Scalable processors will help drive even greater innovative services, usage models and solutions for organizations looking to activate the full value of their data.
More Use Cases:
- Intel SGX Enables Magnit to Create a Trusted Computing Environment
- Intel SGX Helps UCSF Propel Medical Device Innovations
- NEC Creates a Confidential Computing System Backed by Intel SGX
Intel (Nasdaq: INTC) is an industry leader, creating world-changing technology that enables global progress and enriches lives. Inspired by Moore’s Law, we continuously work to advance the design and manufacturing of semiconductors to help address our customers’ greatest challenges. By embedding intelligence in the cloud, network, edge and every kind of computing device, we unleash the potential of data to transform business and society for the better. To learn more about Intel’s innovations, go to newsroom.intel.com and intel.com.
© Intel Corporation. Intel, the Intel logo and other Intel marks are trademarks of Intel Corporation or its subsidiaries. Other names and brands may be claimed as the property of others.
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Source: Intel Corporation
Released Oct 14, 2020 • 9:00 AM EDT