Consider the following high-level design. The solution is intended to read medical data from one application in order to update another. An input file is prepared by an overnight batch run for the solution to work through each morning before patients arrive. Usually the input file is fairly small but at certain times each month the file is much larger. Which of these options should be considered be the process solution designer to guarantee the quality of the end-to-end solution? (Choose four.)
Answer(s): B,E,G,H
Consider the following high-level design. The application concerned is prone to being sluggish or even unresponsive at times. As the solution designer you should anticipate that there will be system exceptions and that after an exception case the application might not be in an ideal state.What should you do? (Choose three.)
Answer(s): A,B,C
Consider the following steps for a theoretical manual process.-Check in input folder any new files.-If there are no files check again later as files can arrive anytime, and there is no limit to the number of files that may come.-Open the next available file.-Take the first case.-Start System X and find the case details.-If the case can’t be found, move to the next one.-After finding the case in System X, fetch additional case details from System Y.-Again if the case can’t be found, move to the next one.-Analyse all the data to see if System Z should be updated.-If the data does not meet the requirements, add notes indicating this to System X and Y and move to the next case.-If the data does meet the requirements, update the case in System Z.-Add notes to System X and Y and move to the next case.-At the end of the file, go back and look for another.-Stop checking for new files at 16:00 and finish any remaining cases.-When all work is complete create a report of the day’s exception cases.-Close down Systems X, Y and Z.If the volume of incoming cases is such that 1 Resource PC can easily handle the workload, which of the following steps for an automated solution should be part of the ‘Preparation’ phase of an automated process?
Answer(s): C
Consider the following steps for a theoretical manual process.-Check in input folder any new files.-If there are no files check again later as files can arrive anytime, and there is no limit to the number of files that may come.-Open the next available file.-Take the first case.-Start System X and find the case details.-If the case can’t be found, move to the next one.-After finding the case in System X, fetch additional case details from System Y.-Again if the case can’t be found, move to the next one.-Analyse all the data to see if System Z should be updated.-If the data does not meet the requirements, add notes indicating this to System X and Y and move to the next case.-If the data does meet the requirements, update the case in System Z.-Add notes to System X and Y and move to the next case.-At the end of the file, go back and look for another.-Stop checking for new files at 16:00 and finish any remaining cases.-When all work is complete create a report of the day’s exception cases.-Close down Systems X, Y and Z.If it is possible that there are long intervals between files arriving, what are the alternatives the process should take to control System X, System Y and System Z? (Choose two.)
Answer(s): B,E
Consider the following steps for a theoretical manual process. -Check in input folder any new files.-If there are no files check again later as files can arrive anytime, and there is no limit to the number of files that may come.-Open the next available file.-Take the first case.-Start System X and find the case details.-If the case can’t be found, move to the next one.-After finding the case in System X, fetch additional case details from System Y.-Again if the case can’t be found, move to the next one.-Analyse all the data to see if System Z should be updated.-If the data does not meet the requirements, add notes indicating this to System X and Y and move to the next case.-If the data does meet the requirements, update the case in System Z.-Add notes to System X and Y and move to the next case.-At the end of the file, go back and look for another.-Stop checking for new files at 16:00 and finish any remaining cases.-When all work is complete create a report of the day’s exception cases.-Close down Systems X, Y and Z.It is imperative that notes are applied to System X and Y, regardless of whether System Z is updated or not, what could the process do? (Choose two.)
Answer(s): A,D
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could you please upload cfe fraud prevention and deterrence questions? it will be very much helpful.
this is really very very helpful for mcd level 1
very helpful!
question #18s answer should be a, not d. this should be corrected. it should be minvalidityperiod
thanks for the exact solution
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correct answer is d for student.java program
q:37 c is correct
q6 exam topic: terramearth, c: correct answer: copy 1petabyte to encrypted usb device ???
explained answers
plan to take theaws certified developer - associate dva-c02 in the next few weeks
very helpfull
good questions
help to practice csa exam
nice tip and well documented
i need the exam
please upload
prepping for fsc exam
pd1 with great experience
@t it seems like azure service bus message quesues could be the best solution
helpful to check your understanding.
question 128 the answer should be static not auto
more comments here
great support to appear for exams
useful dumps
making progress
q31 answer should be d i think
is this real?
q10: c and f are also true. q11: this is outdated. you no longer need ownership on a pipe to operate it
good questions with simple explanation
admin guide (windows) respond to malicious causality chains. when the cortex xdr agent identifies a remote network connection that attempts to perform malicious activity—such as encrypting endpoint files—the agent can automatically block the ip address to close all existing communication and block new connections from this ip address to the endpoint. when cortex xdrblocks an ip address per endpoint, that address remains blocked throughout all agent profiles and policies, including any host-firewall policy rules. you can view the list of all blocked ip addresses per endpoint from the action center, as well as unblock them to re-enable communication as appropriate. this module is supported with cortex xdr agent 7.3.0 and later. select the action mode to take when the cortex xdr agent detects remote malicious causality chains: enabled (default)—terminate connection and block ip address of the remote connection. disabled—do not block remote ip addresses. to allow specific and known s
very inciting
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