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NSE7_ADA-6.3 test plan - NSE 7 - Advanced Analytics 6.3 Updated: 2024

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Exam Code: NSE7_ADA-6.3 NSE 7 - Advanced Analytics 6.3 test plan January 2024 by Killexams.com team
NSE 7 - Advanced Analytics 6.3
Fortinet Analytics test plan

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NSE8_811 Fortinet NSE 8 Written Exam
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NSE5_FMG-7.0 Fortinet NSE 5 - FortiManager 7.0
NSE5_FAZ-7.0 Fortinet NSE 5 - FortiAnalyzer 7.0
NSE7_EFW-7.0 Fortinet NSE 7 - Enterprise Firewall 7.0
NSE4_FGT-7.2 Fortinet NSE 4 - FortiOS 7.2
NSE8-812 NSE 8 - Network Security Expert 8 Written
NSE7_LED-7.0 NSE 7 - LAN Edge 7.0
NSE5_FSM-6.3 NSE 5 - FortiSIEM 6.3
NSE7_ADA-6.3 NSE 7 - Advanced Analytics 6.3
NSE5_EDR-5.0 Fortinet NSE 5 - FortiEDR 5.0
NSE5_FAZ-7.2 NSE 5 - FortiAnalyzer 7.2
NSE6_FAC-6.4 NSE 6 - FortiAuthenticator 6.4
NSE7_OTS-7.2 Trustworthy for Fortinet Certified Solution Specialist (FCSS)
NSE5_FCT-7.0 NSE 5 - FortiClient EMS 7.0
NSE7_SDW-7.0 Fortinet NSE 7 - SD-WAN 7.0
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We are doing battle to giving you real NSE7_ADA-6.3 dumps with braindump questions and answers, alongside explanations. Each Q&A on killexams.com has been confirmed by NSE7_ADA-6.3 certified specialists. They are exceptionally qualified and confirmed people, who have numerous times of expert experience identified with the NSE7_ADA-6.3 exam.
Question: 1
How can you invoke an integration policy on FortiSIEM rules?
A. Through Notification Policy settings
B. Through Incident Notification settings
C. Through remediation scripts
D. Through External Authentication settings
Answer: A
Explanation:
You can invoke an integration policy on FortiSIEM rules by configuring the Notification Policy settings. You can
select an integration policy from the drop-down list and specify the conditions for triggering it. For example, you can
invoke an integration policy when an incident is created, updated, or closed.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 9
Question: 2
How do customers connect to a shared multi-tenant instance on FortiSOAR?
A. The MSSP must provide secure network connectivity between the FortiSOAR manager node and the customer
devices.
B. The MSSP must install a Secure Message Exchange node to connect to the customer's shared multi-tenant instance.
C. The customer must install a tenant node to connect to the MSSP shared multi-tenant instance.
D. The MSSP must install an agent node on the customer's network to connect to the customer's shared multi-tenant
instance.
Answer: D
Explanation:
To connect to a shared multi-tenant instance on FortiSOAR, the MSSP must install an agent node on the customerâs
network. The agent node acts as a proxy between the customerâs devices and the FortiSOAR manager node. The agent
node also performs data collection, enrichment, and normalization for the customerâs data sources.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 11
Question: 3
In the event of a WAN link failure between the collector and the supervisor, by default, what is the maximum number
of event files stored on the collector?
A. 30.000
B. 10.000
C. 40.000
D. 20.000
$13$10
Answer: B
Explanation:
By default, the maximum number of event files stored on the collector in the event of a WAN link failure between the
collector and the supervisor is 10.000. This value can be changed in the collector.properties file by modifying the
parameter max_event_files_to_store.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 13
Question: 4
What is the disadvantage of automatic remediation?
A. It can make a disruptive change to a user, block access to an application, or disconnect critical systems from the
network.
B. It is equivalent to running an IPS in monitor-only mode â watches but does not block.
C. External threats or attacks detected by FortiSIEM will need user interaction to take action on an already overworked
SOC team.
D. Threat behaviors occurring during the night could take hours to respond to.
Answer: A
Explanation:
The disadvantage of automatic remediation is that it can make a disruptive change to a user, block access to an
application, or disconnect critical systems from the network. Automatic remediation can have unintended
consequences if not carefully planned and tested. Therefore, it is recommended to use manual or semi-automatic
remediation for sensitive or critical systems.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 15
Question: 5
What are the modes of Data Ingestion on FortiSOAR? (Choose three.)
A. Rule based
B. Notification based
C. App Push
D. Policy based
E. Schedule based
Answer: A,B,C,E
Explanation:
The modes of Data Ingestion on FortiSOAR are notification based, app push, and schedule based. Notification based
mode allows FortiSOAR to receive data from external sources via webhooks or email notifications. App push mode
allows FortiSOAR to receive data from external sources via API calls or scripts. Schedule based mode allows
$13$10
FortiSOAR to pull data from external sources at regular intervals using connectors.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 17
Question: 6
How can you empower SOC by deploying FortiSOAR? (Choose three.)
A. Aggregate logs from distributed systems
B. Collaborative knowledge sharing
C. Baseline user and traffic behavior
D. Reduce human error
E. Address analyst skills gap
Answer: A,B,D,E
Explanation:
You can empower SOC by deploying FortiSOAR in the following ways:
Collaborative knowledge sharing: FortiSOAR allows you to create and share playbooks, workflows, tasks, and notes
among SOC analysts and teams. This enables faster and more consistent incident response and reduces duplication of
efforts.
Reduce human error: FortiSOAR automates repetitive and tedious tasks, such as data collection, enrichment, analysis,
and remediation. This reduces the risk of human error and improves efficiency and accuracy.
Address analyst skills gap: FortiSOAR provides a graphical user interface for creating and executing playbooks and
workflows without requiring coding skills. This lowers the barrier for entry-level analysts and helps them learn from
best practices and expert knowledge.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 19
Question: 7
Which of the following are two Tactics in the MITRE ATT&CK framework? (Choose two.)
A. Root kit
B. Reconnaissance
C. Discovery
D. BITS Jobs
E. Phishing
Answer: A,B,C
Explanation:
Reconnaissance and Discovery are two Tactics in the MITRE ATT&CK framework. Tactics are the high-level
objectives of an adversary, such as initial access, persistence, lateral movement, etc. Reconnaissance is the tactic of
gathering information about a target before launching an attack. Discovery is the tactic of exploring a compromised
$13$10
system or network to find information or assets of interest.
Reference: Fortinet NSE 7 - Advanced Analytics 6.3 test Description, page 21
Question: 8
Refer to the exhibit. Click on the calculator button.
Based on the information provided in the exhibit, calculate the unused events for the next three minutes for a 520 EPS
license.
A. 72460
B. 73460
C. 74460
D. 71460
Answer: B
Explanation:
The unused events for the next three minutes for a 520 EPS license can be calculated by multiplying the licensed EPS
by the time interval and subtracting the total number of events received in that interval. In this case, the calculation is:
520 x 180 - 27000 = 73460
Question: 9
Refer to the exhibit.
$13$10
An administrator wants to remediate the incident from FortiSIEM shown in the exhibit.
What option is available to the administrator?
A. Quarantine IP FortiClient
B. Run the block MAC FortiO
C. Run the block IP FortiOS 5.4
D. Run the block domain Windows DNS
Answer: B
Explanation:
The incident from FortiSIEM shown in the exhibit is a brute force attack on a FortiGate device. The remediation
option available to the administrator is to run the block IP FortiOS 5.4 action, which will block the source IP address
of the attacker on the FortiGate device using a firewall policy.
Question: 10
Refer to the exhibit.
$13$10
The window for this rule is 30 minutes.
What is this rule tracking?
A. A sudden 50% increase in WMI response times over a 30-minute time window
B. A sudden 1.50 times increase in WMI response times over a 30-minute time window
C. A sudden 75% increase in WMI response times over a 30-minute time window
D. A sudden 150% increase in WMI response times over a 30-minute time window
Answer: B
Explanation:
The rule is tracking the WMI response times from Windows devices using a baseline calculation. The rule will trigger
an incident if the current WMI response time is greater than or equal to 1.50 times the average WMI response time in
the last 30 minutes.
$13$10

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Program-Specific Degree Requirements

Master's Programs: M.A. and M.S. Plan A and Plan B

The math department maintains 4 tracks by which students may obtain a Master of Arts (M.A.) or Master of Science (M.S.) degree in mathematics.

The following requirements are common to all four tracks:

  • The student must maintain a 3.0 cumulative GPA.

  • The student must complete 30 hours of formal mathematics coursework at the 5000 level.

  • As part of the 30 hours of formal 5000-level mathematics courses, the student must complete the following courses with a grade of B or better:

    • o MATH 5200: Real Variables I,

    • o MATH 5230: Complex Variables I,

    • o MATH 5310: Computational Methods I

    • o MATH 5400: Methods of Applied Mathematics I,

    • o MATH 5500: Advanced Linear Algebra, and

    • o MATH 5550: Abstract Algebra I.

  • The student must pass the department’s Foundation Exam. This test covers material from advanced vector calculus and linear algebra at the upper-division undergraduate level and is offered before the beginning of each semester.

  • Take one hour of the seminar 4970: Professional Development in Mathematics and one hour of the seminar 4970: Professional Development in Teaching.

In addition to the common elements above, students must select and complete one of the capstone experiences described in the tracks below.

Track #1: Master's Thesis (Plan A)

Within the 30 hours of 5000-level courses, the Plan A student must complete 4 hours of MATH 5960: Thesis Research. At least 26 hours of 5000-level coursework must be math-content courses (not thesis research).

The student must prepare a master’s thesis (Plan A) and give an oral defense of the thesis. In the mathematics program, a Plan A thesis reports on the result(s) of independent and original research completed by the student under the direction of a faculty member. The thesis should describe the research and its results and be written to the standards of the appropriate area of mathematics.

Track #2: Master's Paper (Plan B)

The student must prepare a master’s paper (Plan B) and give an oral defense.

To write a Plan B paper, the student must present an expository paper on a designated mathematical subject. Students are guided by their advisor in the subject matter and in the preparation of the paper. A successful paper and defense demonstrates that the student has mastered a substantial mathematical course that is beyond those covered in formal foundational coursework.

Track #3: Coursework/Project (Plan B)

A second M.A. or M.S. option exists for the Plan B student. In lieu of writing a paper, the student takes a sequence of three 5000-level courses that all address a common mathematical theme. The sequence must be approved by the student’s advisor and the mathematics graduate committee. Two of the courses must be mathematics-department offerings, and the third may be either a mathematics course (including reading/topics courses) or a course from another department in a related field.

  • The student must complete an additional 6 hours of courses at the 5000 level. Thus, Track #3 requires the completion of 36 hours of graduate-level coursework.

  • Within the 36 hours, the student must propose and complete with a grade of B or better an appropriate 3-course sequence

  • The student will write a short paper illustrating how the common mathematical theme of the sequence manifests itself in the content of each course and give a presentation/defense of the paper.

In approving the student’s proposal for this option, the graduate committee and the advisor will consider how the writing and independent study spirit of the Plan B option are fulfilled within the recommended plan.

Track #4: Qualifying test (Plan B)

A third M.A. or M.S. option exists for the Plan B student. In lieu of writing a paper or taking additional coursework, the student must take and pass the department’s PhD Qualifying Examination in one of the three areas: Analysis, Algebra, or Applied Mathematics. These examinations focus on the material in the required courses.

  • Pass one of the department’s qualifying exams in:

    • o Analysis (MATH 5200 and MATH 5230)

    • o Algebra (MATH 5500 and MATH 5550)

    • o Applied Mathematics (MATH 5310 and MATH 5400)

  • The oral component of this Track will consist of a defense of the student’s written answers to qualifying exam.

These examinations are given twice a year at the beginning of the fall and spring semesters.

**This option is intended for students who will continue for a PhD at UW.**

Doctoral Program

The student must maintain a 3.0 cumulative GPA.

The student must teach two semesters of college mathematics.

The student must complete a combination of 72 hours of coursework and dissertation research. Within the 72 hours, a maximum of 12 hours can be at the 4000 level, and 42 hours must be formal courses at the 5000 level. The courses must be mathematics courses or courses with significant mathematical content, as approved by the department's graduate committee.

Within the 42 hours of 5000-level courses, the student must:

  • Complete MATH 5200, 5230, 5310, 5400, 5500, and 5550 with a grade of B or better.

  • Take two hours of MATH 5800-02, Seminars and Colloquia.

  • Complete the courses distributed in three areas: algebra, analysis, and applied mathematics. The student must take at least two courses in each of two categories and at least one course from the third category. The department maintains a list of course categories.

In addition, the student must:

  • Pass the foundation exam, the qualifying test in the student's research area, and the preliminary exam.

  • Write a dissertation containing the student's original mathematical results and present an oral defense of the research.

  • Take one hour of the seminar 4970: Professional Development in Mathematics and one hour of the seminar 4970: Professional Development in Teaching.

Mathematics (MATH) Courses

Apply to the Graduate Program

Sat, 30 Apr 2022 23:22:00 -0500 en text/html https://www.uwyo.edu/mathstats/academics/graduate/mathematics-graduate-program.html
Lawmakers need constitutional proficiency test. Plan to seize power on abortion proof. No result found, try new keyword!perhaps members of the state Senate and Ohio House of Representatives should be required to pass a proficiency test on the state constitution before being sworn in as legislators for two years ... Sat, 18 Nov 2023 10:00:00 -0600 en-us text/html https://www.yahoo.com/news/lawmakers-constitutional-proficiency-test-plan-100710184.html Keysight 400GE Network Cybersecurity Test Platform Validates Fortinet’s Hyperscale DDoS Defense Capabilities No result found, try new keyword!--(BUSINESS WIRE)--Keysight Technologies, Inc. (NYSE: KEYS) announces that Fortinet chose the Keysight APS-M8400 network cybersecurity test platform to validate the hyperscale distributed denial ... Tue, 12 Dec 2023 21:01:00 -0600 https://www.businesswire.com/news/home/20231213765005/en/Keysight-400GE-Network-Cybersecurity-Test-Platform-Validates-Fortinet%E2%80%99s-Hyperscale-DDoS-Defense-Capabilities Keysight 400GE Network Cybersecurity Test Platform Validates Fortinet’s Hyperscale DDoS Defense Capabilities
  • Scalable test platform generates both legitimate and malicious traffic at multi-terabit, hyperscale volumes, realistically emulating DDoS attack mitigation of carrier-grade network loads
  • Facilitates the transition to 400GE and reduces costs by offering compatibility with existing infrastructure using 8x400GE test ports with fanout support to 200/100/50/40/25/10GE
  • Single pane of glass management simplifies test configuration and system upgrades, reducing overall test time and system maintenance




SANTA ROSA, Calif.–(BUSINESS WIRE)–$KEYS #APSM8400—Keysight Technologies, Inc. (NYSE: KEYS) announces that Fortinet chose the Keysight APS-M8400 network cybersecurity test platform to validate the hyperscale distributed denial of service (DDoS) defense capabilities and carrier-grade performance of its FortiGate 4800F next generation firewall (NGFW). The APS-M8400 is the industry’s first and highest density 8-port 400GE Quad Small Form Factor Pluggable Double Density (QSFP-DD) network security test platform.

Carrier networks, data center operators and service providers are facing exponential growth in cyber-attacks, including DDoS attacks, which have increased by 40% in the last 6 months. The scope and scale of these DDoS attacks are also increasing, as evidenced by the recent, record-breaking Rapid Reset attack which peaked at 398 million requests per second (RPS).

Fortinet developed the FortiGate 4800F NGFW, which is powered by 16 NP7 network processors, to help carriers, data center operators, and service providers protect their critical network infrastructure and services from hyperscale DDoS attacks and other cybersecurity threats while continuing to process multi-terabit volumes of legitimate customer traffic driven by the growing adoption of 400GE. Needing an application and security test solution powerful enough to validate the carrier-grade performance and security capabilities of the FortiGate 4800F NGFW prior to deploying in a live customer network, Fortinet turned to Keysight’s APS-M8400.

Using the Keysight APS-M8400, Fortinet validated the cybersecurity capabilities of the FortiGate 4800F NGFW using:

  • Carrier-Grade Traffic Generation – The APS-M8400 platform generated 3 Tbps of legitimate and malicious traffic in a single test, validating the hyperscale firewall protection offered by the FortiGate 4800F, which successfully defended against an 800 Gbps layer 2-3 DDoS attack while continuing to deliver 2.2 Tbps of legitimate layer 4-7 traffic, without taxing CPU, memory usage, or system responsiveness.
  • Port Density and Flexibility – Fortinet used all of the APS-M8400’s 8x400GE QSFD-DD interfaces to send traffic across all available 400GE test ports on the FortiGate 4800F. Each of the APS-M8400’s 8x400GE QSFD-DD interfaces can fan out to 200/100/50/40/25/10GE, offering Fortinet the flexibility to test multiple port configurations like the 12x200GE/100GE/40GE and up to 12x50GE/25GE/10GE test ports supported by the FortiGate 4800F.
  • Hyperscale Throughput and Scalability – The APS-M8400’s extensible aggregation of compute node resources and Field-Programmable Gate Array (FPGA) resources allowed Fortinet to scale up the test bed to generate the 3 Tbps of traffic needed to effectively test the FortiGate 4800F. The APS-M8400 features a pay-as-you-grow model, enabling users to scale in multi-chassis mode to generate more than 12 Tbps of layer 4-7 traffic, 3.2 Tbps of layer 2-3 traffic, 9.6 Tbps of Transport Layer Security (TLS) traffic, 20 billion concurrent connections, and 220 million connections per second of legitimate and malicious test traffic in a single test.
  • Ease of Management – APS-M8400’s intuitive, single pane of glass management allowed Fortinet to simply and easily configure the multiple compute node and FPGA resources required to run a hyperscale, multi terabit test. This reduced their overall test time and system maintenance, freeing up users to focus on other critical efforts.

John Maddison, Executive Vice President of Products and Chief Marketing Officer, Fortinet, said: “The FortiGate 4800F is the industry’s fastest compact hyperscale firewall, offering carrier-grade performance and scalability to safeguard datacenters and service providers as cyberattacks continue to accelerate at an unprecedented pace. Powered by 16 of Fortinet’s custom built seventh-generation network processors, this NGFW delivers the necessary 400GE port density, multi-terabit application throughput, and session scalability to protect customers against DDoS attacks. This is validated by Keysight’s innovative APS-M8400 8x400GE cybersecurity test platform, proving that the FortiGate 4800F delivers the hyperscale performance and real-time threat protection our customers expect.”

Ram Periakaruppan, Vice President and General Manager, Keysight Network Test and Security Solutions, said: “Cybersecurity threats like DDoS attacks are continually increasing in scope, scale, and impact on their potential victims. It is vital that carriers, service providers and data centers protect their critical infrastructure from these attacks to continue serving the hyperscale volumes of legitime traffic that continue to grow at a rapid pace. Keysight’s APS-8400 helps network equipment manufacturers like Fortinet validate that their solutions are up to the task, delivering carrier-grade application and cybersecurity test loads in a flexible, 8x400GE solution that can grow with their changing needs.

Resources

About Keysight Technologies

At Keysight (NYSE: KEYS), we inspire and empower innovators to bring world-changing technologies to life. As an S&P 500 company, we’re delivering market-leading design, emulation, and test solutions to help engineers develop and deploy faster, with less risk, throughout the entire product lifecycle. We’re a global innovation partner enabling customers in communications, industrial automation, aerospace and defense, automotive, semiconductor, and general electronics markets to accelerate innovation to connect and secure the world. Learn more at Keysight Newsroom and www.keysight.com.

Contacts

Keysight Media Contacts

Paul Erwin

Americas

+1 248 430 9075

paul.erwin@keysight.com

Fusako Dohi

Asia

+81 42 660-2162

fusako_dohi@keysight.com

Jenny Gallacher

Europe

+44 (0) 7800 737 982

jenny.gallacher@keysight.com

Tue, 12 Dec 2023 10:00:00 -0600 it-IT text/html https://www.01net.it/keysight-400ge-network-cybersecurity-test-platform-validates-fortinets-hyperscale-ddos-defense-capabilities/
Keysight 400GE Network Cybersecurity Test Platform Validates Fortinet's Hyperscale DDoS Defense Capabilities
  • Scalable test platform generates both legitimate and malicious traffic at multi-terabit, hyperscale volumes, realistically emulating DDoS attack mitigation of carrier-grade network loads
  • Facilitates the transition to 400GE and reduces costs by offering compatibility with existing infrastructure using 8x400GE test ports with fanout support to 200/100/50/40/25/10GE
  • Single pane of glass management simplifies test configuration and system upgrades, reducing overall test time and system maintenance

Keysight Technologies, Inc. (NYSE: KEYS) announces that Fortinet chose the Keysight APS-M8400 network cybersecurity test platform to validate the hyperscale distributed denial of service (DDoS) defense capabilities and carrier-grade performance of its FortiGate 4800F next generation firewall (NGFW). The APS-M8400 is the industry’s first and highest density 8-port 400GE Quad Small Form Factor Pluggable Double Density (QSFP-DD) network security test platform.

This press release features multimedia. View the full release here: https://www.businesswire.com/news/home/20231213765005/en/

The Keysight APS-M8400, the industry’s first and highest density 8-port 400GE Quad Small Form Factor Pluggable Double Density network security test platform is used to validate the hyperscale distributed denial of service defense capabilities and carrier-grade performance of the FortiGate 4800F next generation firewall. (Photo: Business Wire)

The Keysight APS-M8400, the industry’s first and highest density 8-port 400GE Quad Small Form Factor Pluggable Double Density network security test platform is used to validate the hyperscale distributed denial of service defense capabilities and carrier-grade performance of the FortiGate 4800F next generation firewall. (Photo: Business Wire)

Carrier networks, data center operators and service providers are facing exponential growth in cyber-attacks, including DDoS attacks, which have increased by 40% in the last 6 months. The scope and scale of these DDoS attacks are also increasing, as evidenced by the recent, record-breaking Rapid Reset attack which peaked at 398 million requests per second (RPS).

Fortinet developed the FortiGate 4800F NGFW, which is powered by 16 NP7 network processors, to help carriers, data center operators, and service providers protect their critical network infrastructure and services from hyperscale DDoS attacks and other cybersecurity threats while continuing to process multi-terabit volumes of legitimate customer traffic driven by the growing adoption of 400GE. Needing an application and security test solution powerful enough to validate the carrier-grade performance and security capabilities of the FortiGate 4800F NGFW prior to deploying in a live customer network, Fortinet turned to Keysight’s APS-M8400.

Using the Keysight APS-M8400, Fortinet validated the cybersecurity capabilities of the FortiGate 4800F NGFW using:

  • Carrier-Grade Traffic Generation –The APS-M8400 platform generated 3 Tbps of legitimate and malicious traffic in a single test, validating the hyperscale firewall protection offered by the FortiGate 4800F, which successfully defended against an 800 Gbps layer 2-3 DDoS attack while continuing to deliver 2.2 Tbps of legitimate layer 4-7 traffic, without taxing CPU, memory usage, or system responsiveness.
  • Port Density and Flexibility – Fortinet used all of the APS-M8400’s 8x400GE QSFD-DD interfaces to send traffic across all available 400GE test ports on the FortiGate 4800F. Each of the APS-M8400’s 8x400GE QSFD-DD interfaces can fan out to 200/100/50/40/25/10GE, offering Fortinet the flexibility to test multiple port configurations like the 12x200GE/100GE/40GE and up to 12x50GE/25GE/10GE test ports supported by the FortiGate 4800F.
  • Hyperscale Throughput and Scalability – The APS-M8400’s extensible aggregation of compute node resources and Field-Programmable Gate Array (FPGA) resources allowed Fortinet to scale up the test bed to generate the 3 Tbps of traffic needed to effectively test the FortiGate 4800F. The APS-M8400 features a pay-as-you-grow model, enabling users to scale in multi-chassis mode to generate more than 12 Tbps of layer 4-7 traffic, 3.2 Tbps of layer 2-3 traffic, 9.6 Tbps of Transport Layer Security (TLS) traffic, 20 billion concurrent connections, and 220 million connections per second of legitimate and malicious test traffic in a single test.
  • Ease of Management – APS-M8400’s intuitive, single pane of glass management allowed Fortinet to simply and easily configure the multiple compute node and FPGA resources required to run a hyperscale, multi terabit test. This reduced their overall test time and system maintenance, freeing up users to focus on other critical efforts.

John Maddison, Executive Vice President of Products and Chief Marketing Officer, Fortinet, said: “The FortiGate 4800F is the industry’s fastest compact hyperscale firewall, offering carrier-grade performance and scalability to safeguard datacenters and service providers as cyberattacks continue to accelerate at an unprecedented pace. Powered by 16 of Fortinet’s custom built seventh-generation network processors, this NGFW delivers the necessary 400GE port density, multi-terabit application throughput, and session scalability to protect customers against DDoS attacks. This is validated by Keysight's innovative APS-M8400 8x400GE cybersecurity test platform, proving that the FortiGate 4800F delivers the hyperscale performance and real-time threat protection our customers expect.”

Ram Periakaruppan, Vice President and General Manager, Keysight Network Test and Security Solutions, said: “Cybersecurity threats like DDoS attacks are continually increasing in scope, scale, and impact on their potential victims. It is vital that carriers, service providers and data centers protect their critical infrastructure from these attacks to continue serving the hyperscale volumes of legitime traffic that continue to grow at a rapid pace. Keysight's APS-8400 helps network equipment manufacturers like Fortinet validate that their solutions are up to the task, delivering carrier-grade application and cybersecurity test loads in a flexible, 8x400GE solution that can grow with their changing needs.

Resources

About Keysight Technologies

At Keysight (NYSE: KEYS), we inspire and empower innovators to bring world-changing technologies to life. As an S&P 500 company, we’re delivering market-leading design, emulation, and test solutions to help engineers develop and deploy faster, with less risk, throughout the entire product lifecycle. We’re a global innovation partner enabling customers in communications, industrial automation, aerospace and defense, automotive, semiconductor, and general electronics markets to accelerate innovation to connect and secure the world. Learn more at Keysight Newsroom and www.keysight.com.

Wed, 13 Dec 2023 02:03:00 -0600 text/html https://stockhouse.com/news/press-releases/2023/12/13/keysight-400ge-network-cybersecurity-test-platform-validates-fortinet-s




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