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We offer three different formats for preparing for the Nokia Optical Networking Fundamentals (4A0-205) exam questions, all of which will ensure your definite success on your Nokia Optical Networking Fundamentals (4A0-205) exam dumps. Test4Engine is there with updated 4A0-205 Questions so you can pass the Nokia Optical Networking Fundamentals (4A0-205) exam and move toward the new era of technology with full ease and confidence.

Nokia 4A0-205 is an exam that is designed to test your knowledge and skills in Nokia Optical Networking Fundamentals. 4A0-205 exam is suitable for anyone who wants to validate their knowledge of optical networking and wants to be recognized as an expert in the field. 4A0-205 Exam is designed to test your ability to install, configure and maintain Nokia optical networking products.

Nokia Optical Networking Fundamentals Sample Questions (Q56-Q61):

NEW QUESTION # 56
How many PM bins can be stored, for each data collection point, on PSS systems?

• A. 120 x 15-min bins, 60 x 1-day bins and 1 raw bin.
• B. 4 x 15-min bins and 1 x 1-day bin.
• C. 200 x 15-min bins, 90 x 1-day bins and 1 raw bin.
• D. 33 x 15-min bins, 8 x 1-day bins and 1 raw bin.

Answer: D

Explanation:
Comprehensive and Detailed Explanation From Nokia Optical Networking Fundamentals:
Performance Monitoring (PM) is critical for maintaining the health of a Nokia 1830 PSS network. The system collects data such as FEC corrected bits, optical power levels, and ODU-layer errors. According to Nokia's standard node management architecture, each data collection point (such as an optical port or an ODU termination point) stores a specific number of historical "bins" locally on the card or the shelf controller.
The standard storage capacity for these PM statistics is 33 x 15-minute bins (covering the last 8 hours and 15 minutes of granular data) and 8 x 1-day bins (covering the last week of daily totals). Additionally, there is 1 raw bin which contains the "current" accumulating data that has not yet been shifted into a completed 15-minute or 24-hour historical bin. This allows network operators using WS-NOC (WaveSuite Network Operations Center) to retrieve recent historical performance data directly from the NE (Network Element) even if the management system was temporarily disconnected. If longer-term history is required, the management system must be configured to poll and archive these bins into its own database before they are overwritten on the hardware.

NEW QUESTION # 57
What is the meaning of demand in EPT?

• A. Demand refers to the required capacity of a single network element in terms of bandwidth.
• B. Demand refers to the amount of OTN interfaces within a single network element.
• C. Demand refers to one or more client signal.
• D. Demand refers to the required number of trails to be automatically created to meet design requirements.

Answer: C

Explanation:
Comprehensive and Detailed Explanation From Nokia Optical Networking Fundamentals:
In the context of the Nokia 1830 Engineering and Planning Tool (EPT)-now known as WaveSuite Planner (WS-P)-a Demand is a fundamental planning object that represents the customer's traffic requirement between two or more nodes. Specifically, it refers to one or more client signals that need to be transported across the optical network. When a user defines a demand in EPT, they specify the source and destination nodes, the type of client service (e.g., 10GE, 100GE, or STM-64), the quantity of these services, and the required protection level (e.g., Unprotected, 1+1, or O-SNCP).
The tool uses these defined demands to calculate the most efficient optical path, select the appropriate hardware (transponders and muxponders), and determine the necessary wavelength assignments. While a demand eventually results in the creation of optical trails and utilizes network element capacity, the term itself strictly refers to the input traffic requirement or the client signal(s) that the network is being designed to carry. Without defining demands, the planning tool cannot generate a Bill of Materials (BOM) or perform power balancing simulations, as it wouldn't know the traffic load the physical infrastructure must support.

NEW QUESTION # 58
Which of the following statements about Optical Add/Drop Multiplexers (OADMs) is FALSE?

• A. OADMs allow the user to pass-through specific services at the wavelength optical level (express channels).
• B. There are two main general classes of OADMs: FOADMs and ROADMs.
• C. OADMs allow the user to terminate specific services through transponders.
• D. OADMs always require O-E-O conversion when passing-through optical channels.

Answer: D

Explanation:
Comprehensive and Detailed Explanation From Nokia Optical Networking Fundamentals:
In the context of the Nokia 1830 PSS (Photonic Service Switch) and general WDM principles, the statement that OADMs always require O-E-O (Optical-Electrical-Optical) conversion for pass-through channels is fundamentally incorrect. The primary purpose of an OADM is to provide the ability to "add" or "drop" specific wavelengths while allowing other wavelengths (known as express or pass-through channels) to continue through the node entirely in the photonic domain.
By remaining in the optical layer, these express channels avoid the latency and cost associated with O-E-O conversion. FOADMs (Fixed OADMs) use static filters to achieve this, while ROADMs (Reconfigurable OADMs) use Wavelength Selective Switches (WSS) to dynamically route traffic. O-E-O conversion only occurs at the transponder or muxponder level when a service is terminated (dropped) or initiated (added) to convert the client signal into a compliant DWDM wavelength. Therefore, the efficiency of an optical network relies on the fact that pass-through traffic stays as light, bypassing the need for electrical processing at every node.

NEW QUESTION # 59
What is the function of a pre-amplifier in an optical network?

• A. Through the pre-amplifier, the optical signal is amplified both the receiver side and at the transmitter side.
• B. Through the pre-amplifier, the optical signal is amplified at the transmitter side before it is sent to the line span.
• C. Through the pre-amplifier, the optical signal is amplified within the node internally to recover internal losses due, for instance, to cascaded filters.
• D. Through the pre-amplifier, the optical signal is amplified at the receiver side after it travels along the fiber from another node.

Answer: B

Explanation:
A pre-amplifier is an optical amplifier that is used to boost the power of the received optical signal before it is detected by the receiver in an optical communication system. This is done to overcome the loss of power that occurs as the signal travels through the optical fiber and to ensure that the receiver can detect the signal. The pre-amplification stage is typically located close to the receiver in order to minimize the distance that the signal has to travel between the amplifier and the receiver, which helps to reduce the noise and distortion in the signal.

NEW QUESTION # 60
What is a Shared Risk Group (SRG)?

• A. A set of boards that share the same failure risk
• B. A set of nodes that share a common risk of hardware failure
• C. A set of network resources that share a common failure risk
• D. A set of fibers that share the same latency risk

Answer: C

Explanation:
According to the Nokia Optical Networking documentation, a Shared Risk Group (SRG) is defined as "a set of network resources that share a common failure risk. When a resource in an SRG fails, the other resources in the group are also affected." This can include fibers, boards, nodes, and other network resources. The SRG concept is used in network design and protection mechanisms to ensure survivability and minimal impact on service in case of a failure.

NEW QUESTION # 61
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