The Ultimate Guide to Connected Device Security

Nearly 70% of organizations surveyed by the Linux Foundation report being very or extremely concerned about the security of the software they use. When that software powers critical infrastructure systems in sectors such as energy, telecom, or health care, the stakes to society rise high.

In our Ultimate Guide to Connected Device Security, we explore the six steps that organizations must take to better secure their products and software supply chain lifecycles.

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A Path to a Secure and Stable Linux Platform

Securing your Linux platform is a full lifecycle activity — from architecture through design and deployment, and on to decommissioning.

With the increasing number of intelligent devices utilizing open source software (OSS), security vulnerabilities are more prevalent than ever. Unaddressed Common Vulnerabilities and Exposures (CVEs) can cause excessive technical debt that ultimately weighs on the success of an embedded project. Unaddressed security vulnerabilities and defects can expose your organization to serious risk, leading to reputation damage, financial impact, and even product failure. Security management is a full lifecycle activity. Embedded software teams must be committed to ongoing threat monitoring, rapid assessment and threat prioritization, and timely remediation.

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Web Seminar: Path to Secure Linux Platforms

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Highlights Path to Secure Linux Platforms

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Key Questions Answered

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Achieving Platform Stability

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Best Practices

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Re-Assess, Re-Scan, Validate, Improve

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Remediate, Mitigate, Accept Risk

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Understanding Critical CVEs

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Reporting Projects

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Scanning Projects

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Identifying Assets

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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Vulnerability Management

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
Image Screenshoot
View Now

Path to Secure Linux Platforms

With 84% of Linux projects carrying high-risk vulnerabilities, do you have a solid security plan and team in place to proactively identify, address, and manage CVEs?

INSIGHTS INCLUDE

  • A step-by-step process to secure your Linux platforms.
  • Manifest files vs SBOMS.
  • How to select the best scanner for your needs.
  • The three reactions to a CVE: remediate, mitigate, or accept risk.
  • Security concerns for back porting as well as up-reving.
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