 Hello, this is Professor Steven Nesheva, and I'm here to help you out with a shortcut on the edGCM run analysis. And here's how it goes. I've uploaded some diagnostic runs for a couple of scenarios and what you want to do is choose the one or use the one that's been assigned to you and you want to click on this and download it, and it will take about a minute, so I'm not going to do it right now because I've already I've already done that, but it will download as a zip file and you want to double-click on that to expand it as a folder and then move it into your desktop and so I've already done that and then the next step that you'll do is you're going to launch a panoply and when it comes up then what we're going to do is just use panoply to open that up directly. Now, I've already put my I've already downloaded and moved that diagnostic file that you will have just unloaded onto the desktop, as you can see here on my Mac, and I'm going to double-click on that and this may not come out expanded, but there's two sort of important folders there. One of them is this thing called maps and the other one is this thing called plots and first I'll show you how to how to get to them to them use the map. So since I'm in panoply right there, what I'm going to do is just double-click on that file and what we're going to want to do actually is open up two of them so we can make differences, so we have to go back to the sources browser and go back there and then go to open and I'm going to open up the other one of these. So the first one that I opened was the the starting years, 58 to 62, and now the second one that I want to open up is the ending years. So now I have both of those NC files open. You'll want to look at various of these, but right now I'm just going to show you how to pick up the surface air temperature. So I'm double-clicking on the surface air temperature and I just say 38 here and it's going to come up with a map and that looks fine. Then I'm going to do the same thing over here for the ending time, which is up to the year 2050 and I've got those. So to take a difference, what I'm going to do is go back over here and do a combined plot and just say yes on that one. And here's what you'll need to kind of look at. You see that now we have array 1 and array 2 here. So array 1 is the early years and array 2 is the later years and so and those both appear here. What I what you want to do is look at the annual averages for temperature on on both of them. Okay, and because the latter time period is array 2, I'm going to switch this so that I can look at array 2 minus array 1 and and now one final thing is we have to change the scale because it defaulted to these big numbers. So I'm going to say minus 5 degrees Celsius up to 5 degrees Celsius. So now what we have is the final temperature in the year 2050 or five years up to that and then minus the 1950 to 1963 rotten. So that's that part of it and the other part of it that you might be interested in is I'm going to go back to the finder here and this is the diagnostics folder that you downloaded. So remember we've been we've been looking at at these maps right here, but as I said before we also want to have a look at these data files that are in this thing called plots and these are trends for the entire period. So for example, if I wanted to look at the surface air temperature, this is just a simple text document. I can just double-click on that on my machine because it defaults to text edit, but you might need to open with a text editor and as you can see what we get on this is all the years from 1958 to 2050 and perhaps the the first column here is the one that's going to be most interesting to us. That's the global temperature which starts off in 1958 at 13.2 Celsius and we end up at just about 15 Celsius in the year 2050. So this kind of just tells you how the temperature is evolved according to the A1FI model from 1958 to 2050.