Great video! A yamazumi chart is a great way to see bottlenecks visually as well. I am Industrial Engineer and I like to teach this to my students and new hires.
Good Video and this further needs to extend the impact on inventory and ordering process, as you will remove the bottlenecks, the system capacity will increase, it will produce more units in less time, but to do that you must also extend the model to include the customer orders, and pressure on purchasing activities. Nice Explanation though, Congratulations!
Hey, this is because throughput time is the time it takes a single unit to pass through the system. In this example only one unit will be passing through one of the machines labeled B at a time. So, the total time for a single unit to pass through the system is still the sum of the time it takes a unit to pass through a+b+c, but our output is increased because we doubled our capacity in machine B.
If the process time was different for each unit, due to lack of resource (increases the waiting time), would we still find the throughput time using the amount of time it took to process one unit ?
Great video! A yamazumi chart is a great way to see bottlenecks visually as well. I am Industrial Engineer and I like to teach this to my students and new hires.
Thanks for this, it was a simple and clear way of explaining bottleneck
Good Video and this further needs to extend the impact on inventory and ordering process, as you will remove the bottlenecks, the system capacity will increase, it will produce more units in less time, but to do that you must also extend the model to include the customer orders, and pressure on purchasing activities. Nice Explanation though, Congratulations!
Found this information to be very helpful...
Now I just understand the bottle neck process...thanks
I can easily understand . Super video. Keep rocking
I am learning F5 but I can’t understand the bottleneck activity at all, it is very helpful. Thanks
Yes even me l need help.
Thanks for the video ..It helps to learn easy
It was very clear, thank you so much.
Very good and simple explanation. Thank you very much for your effort.
Yh,but struggling with video quality
Nice explained sir...
clear, useful, good visuals
Very helpful thanks!
Thank you for the explanation.
Great explanation sir. Pls do more videos on Operation mgt subject. Pls.
clearly explained... ty so much!
In problem 2 the throughout time is 7 minutes as we have installed another machine so technically it will take less time now.
@arjun mandi Re-read my comment ...in problem 2 ..we have installed 2 machines in B. so technically B processes in 2 min/unit.
@@excelcorporation391 The machine time has not changed. You have just added the same machine B to match the output from A
Super ❤
Super sir
I am learning from the best knowledge of operation management before I feel it was a very hard and not understand chapter
Is Throughput time also known as Flow Time ?
Great video, but how can we calculate cycle time from the above exampl
what is cycle time?
Thanks sir
does the throughput time include lead time ( duration between each process) for example if you had 1 minute between each box would you include it?
Hi, I didn't get that last part. Why is it the same in throughput time? 2+4+3? When there were two machine B's?
Hey, this is because throughput time is the time it takes a single unit to pass through the system. In this example only one unit will be passing through one of the machines labeled B at a time. So, the total time for a single unit to pass through the system is still the sum of the time it takes a unit to pass through a+b+c, but our output is increased because we doubled our capacity in machine B.
Tysm
Why c is taken as 15
If the process time was different for each unit, due to lack of resource (increases the waiting time), would we still find the throughput time using the amount of time it took to process one unit ?
It all depends on your customer demand or takt time.
6:20 machine c = 20 ❗️
Too nycly get it..
flame.