Editing Climateprediction.net

{{short description|BOINC based volunteer computing project researching climate models}}
{{Lowercase title}}
{{Infobox distributed computing project
| logo                    = Climateprediction dot net logo.png
| released                = {{start date |2003|9|12}}
| developer               = [[Oxford University]]
| operating system        = [[Cross-platform]]
| platform                = [[BOINC]]
|license=proprietary<ref>{{Cite web|title=Licence agreement|url=https://www.climateprediction.net/getting-started/licence-agreement/|access-date=2020-08-07|website=www.climateprediction.net|archive-date=2020-09-26|archive-url=https://web.archive.org/web/20200926192033/https://www.climateprediction.net/getting-started/licence-agreement/|url-status=live}}</ref>
| status                  = Active
| website                 = {{url|https://www.cpdn.org}}
| performance             = 78.8 [[FLOPS|TFLOPS]]<ref name="climatepredictionserver"/>
| active users            = 7,516
| total users             = 305,577<ref name="climatepredictionserver">{{cite web |url= https://www.cpdn.org/cpdnboinc/server_status.php |title= Project status |author= <!--Not stated--> |date= 29 January 2020 |website= Climateprediction |publisher=  |access-date= 29 January 2020 |quote=  |archive-date= 27 August 2022 |archive-url= https://web.archive.org/web/20220827113619/https://www.cpdn.org/cpdnboinc/server_status.php |url-status= live }}</ref>
| active hosts            = 10,275<ref name="climatepredictionserver"/>
| total hosts             = 652,792<ref name="climatepredictionserver"/>
|screenshot=Climateprediction.gif|screenshot caption=climate''prediction''.net screensaver|logo_size=250px|screenshot_size=250px|name=climate''prediction''.net}}

'''climate''prediction''.net''' ('''CPDN''') is a [[volunteer computing]] project to investigate and reduce uncertainties in [[Global climate model|climate modelling]]. It aims to do this by running hundreds of thousands of different models (a large [[climate ensemble]]) using the donated idle time of ordinary [[personal computers]], thereby leading to a better understanding of how models are affected by small changes in the many [[Parametrization (climate)|parameters]] known to influence the global climate.<ref name="Normalization">{{cite web |url=http://climateprediction.net/content/about-climatepredictionnet-project |title=About the project |publisher=Climateprediction.net |accessdate=2011-02-20 |url-status=dead |archiveurl=https://web.archive.org/web/20110223231012/http://climateprediction.net/content/about-climatepredictionnet-project |archivedate=2011-02-23 }}</ref>

The project relies on the [[BOINC]] framework where voluntary participants agree to run some processes of the project at the [[client-side]] in their personal computers after receiving tasks from the [[server-side]] for treatment.

CPDN, which is run primarily by [[Oxford University]] in [[England]], has harnessed more computing power and generated more data than any other climate modelling project.<ref>{{cite web |url=http://www.bbc.co.uk/sn/climateexperiment/theexperiment/abouttheexperiment.shtml |title=BBC quote of Nick Faull |publisher=Bbc.co.uk |date=2007-01-21 |accessdate=2011-02-20 |archive-date=2009-02-02 |archive-url=https://web.archive.org/web/20090202231043/http://www.bbc.co.uk/sn/climateexperiment/theexperiment/abouttheexperiment.shtml |url-status=live }}</ref> It has produced over 100 million model years of data so far.<ref>{{cite web |url=http://www.climateprediction.net/ |title=climate prediction.net |accessdate=2010-12-13 |work=tessella.com |archive-date=2009-02-27 |archive-url=https://web.archive.org/web/20090227042644/http://climateprediction.net/ |url-status=live }}</ref> {{As of|2016|6}}, there are more than 12,000 active participants from 223 countries with a total [[BOINC Credit System|BOINC credit]] of more than 27 billion, reporting about 55 [[Floating point operations per second|teraflops]] (55 trillion operations per second) of processing power.<ref>{{cite web |url=http://boincstats.com/stats/project_graph.php?pr=cpdn |title=Detailed user, host, team and country statistics with graphs for BOINC |accessdate=2016-06-29 |work=boincstats.com |url-status=dead |archiveurl=https://web.archive.org/web/20081218040224/http://boincstats.com/stats/project_graph.php?pr=cpdn |archivedate=2008-12-18 }}</ref>

== Aims ==
[[File:Global Warming Predictions.png|thumb|260x260px|IPCC graphic of uncertainty ranges with various models over time. '''climate''prediction''.net''' is aiming to reduce the ranges and produce better probability information.]]
The aim of the climate''prediction''.net project is to investigate the uncertainties in various parameterizations that have to be made in state-of-the-art climate models.<ref>{{cite web |url=http://www.climateprediction.net/science/model-intro.php |title=Modelling The Climate |publisher=Climateprediction.net |accessdate=2011-02-20 |url-status=dead |archiveurl=https://web.archive.org/web/20090204080827/http://www.climateprediction.net/science/model-intro.php |archivedate=2009-02-04 }}</ref> The model is run thousands of times with slight perturbations to various physics parameters (a 'large [[climate ensemble|ensemble]]') and the project examines how the model output changes. These parameters are not known exactly, and the variations are within what is subjectively considered to be a plausible range. This will allow the project to improve understanding of how sensitive the models are to small changes and also to things like changes in [[carbon dioxide]] and [[sulfur cycle|sulphur cycle]]. In the past, estimates of climate change have had to be made using one or, at best, a very small ensemble (tens rather than thousands) of model runs. By using participants' computers, the project will be able to improve understanding of, and confidence in, climate change predictions more than would ever be possible using the supercomputers currently available to scientists.

The climate''prediction''.net experiment is intended to help "improve methods to quantify uncertainties of climate projections and scenarios, including long-term ensemble simulations using complex models", identified by the [[Intergovernmental Panel on Climate Change]] (IPCC) in 2001 as a high priority. Hopefully, the experiment will give decision makers a better scientific basis for addressing one of the biggest potential global problems of the 21st century.

As shown in the graph above, the various models have a fairly wide distribution of results over time. For each curve, on the far right, there is a bar showing the final temperature range for the corresponding model version. The further into the future the model is extended, the wider the variances between them. Roughly half of the variation depends on the future [[climate forcing]] [[Climate change scenario|scenario]] rather than uncertainties in the model. Any reduction in those variations, whether from better scenarios or improvements in the models, are wanted. '''climate''prediction''.net''' is working on model uncertainties, not the scenarios.

Currently, scientists can run models and see that x% of the models warm y degrees in response to z climate forcings, but are uncertain as to whether x% is a good representation of the probability of that happening in the real world. Some models will be good and some poor at producing past climate when given past climate forcings and initial conditions (a [[hindcast]]). It does make sense to trust the models that do well at recreating the past more than those that do poorly. Therefore, models that do poorly will be down weighted.<ref name="Normalization" />

==The experiments==
[[Image:CPDN-Client.png|thumb|260x260px|'''climate''prediction''.net''' screensaver under [[BOINC]] 5.4.9]]
The different models that climate''prediction''.net has and will distribute are detailed below in chronological order. Therefore, anyone who has joined recently is likely to be running the [[Transient climate simulation|transient coupled model]].
* '''Classic Slab Model''' - The original experiment not under [[BOINC]]. See [[#The original model]] for further details. This model remains in use solely for the OU short course.<ref name=":0">{{Cite web|last=|first=|date=|title=Open University short course|url=http://www.climateprediction.net/openu/index.php|url-status=live|archive-url=https://web.archive.org/web/20070428120137/http://www.climateprediction.net/openu/|archive-date=28 April 2007|access-date=|website=climateprediction.net}}</ref>
* '''BOINC Slab Model''' - The same as the classic [[#The original model|Slab Model]], but released under [[BOINC]].
* '''[[Thermohaline circulation|ThermoHaline Circulation (THC) Model]]''' - An investigation of how the climate might change in the event of a decrease in the strength of the '''''T'''''hermo'''''H'''''aline '''''C'''''irculation. This experiment has now been closed to new participants as they have sufficient results. It was a [[four phase model]] totaling 60 model years. The first three phases were identical to the above [[#The original model|Slab Models]]. The fourth phase imposed the effects of a 50% slowdown in the Thermohaline circulation by imposing [[Sea surface temperature|SST]] changes in the north Atlantic derived from other runs.<ref>{{cite web |url=http://www.climateprediction.net/science/thc_about.php |title=About THC |publisher=Climateprediction.net |accessdate=2011-02-20 |archive-url=https://web.archive.org/web/20090227083253/http://www.climateprediction.net/science/thc_about.php |archive-date=2009-02-27 |url-status=dead }}</ref>
* [[Sulfur cycle|'''Sulfur Cycle Model''']] - An investigation of the effect of sulfate aerosols on the climate. The experiment will model [[sulfur]] in a number of compound forms including [[dimethyl sulfide]] and sulfate aerosols.<ref>{{cite web|last=|first=|date=|title=Sulphur Cycle Experiment|url=http://www.climateprediction.net/science/s-cycle.php|url-status=dead|archive-url=https://web.archive.org/web/20090218232816/http://www.climateprediction.net/science/s-cycle.php|archive-date=2009-02-18|accessdate=2011-02-20|website=climateprediction.net}}</ref> This experiment started in August 2005 and was a pre-requirement for the [[Hindcast]]. It is a 5 phase model totalling 75 model years. Timesteps are around 70% longer, making the model around 2.8 times longer than the initial slab model.<ref>{{cite web |url=http://www.climateprediction.net/science/s-cycle.php |title=Sulfur Cycle |publisher=Climateprediction.net |accessdate=2011-02-20 |archive-url=https://web.archive.org/web/20090218232816/http://www.climateprediction.net/science/s-cycle.php |archive-date=2009-02-18 |url-status=dead }}</ref> While a few models are still tricking, model have not been issued since 2006.<ref>{{cite web |url=http://climateapps2.oucs.ox.ac.uk/cpdnboinc/proj_stat.php |title=Project Stats |publisher=Climateapps2.oucs.ox.ac.uk |accessdate=2011-02-20 |archive-url=https://web.archive.org/web/20110702082006/http://climateapps2.oucs.ox.ac.uk/cpdnboinc/proj_stat.php |archive-date=2011-07-02 |url-status=dead }}</ref>
* '''Coupled Spin-Up Model''' - Inclusion of oceanic influences into the basic model in a more dynamic and realistic way than the initial [[#The original model|Slab Model]]. This was a pre-requirement for the [[Hindcast]]. This has been completed and, as planned, was not publicly released. The fastest 200 - 500 computers were invited to join because it is a 200-year model and results were needed by February 2006 for the [[transient coupled model]] launch.
* [[Transient coupled model|'''Transient coupled Model''']] - This comprises an 80-year [[Hindcast]] and an 80-year [[Weather forecasting|forecast]]. The Hindcast is to test how well the models perform at recreating the climate of 1920 to 2000.<ref>{{cite web |url=http://www.climateprediction.net/science/strategy.php |title=Strategy - see experiment 2 |publisher=Climateprediction.net |accessdate=2011-02-20 |url-status=dead |archiveurl=https://web.archive.org/web/20090823062332/http://climateprediction.net/science/strategy.php |archivedate=2009-08-23 }}</ref> It was launched February 2006 under [[BBC Climate Change Experiment]] branding and later also released from the CPDN site.
* '''[[Seasonal Attribution Project]]''' - This is a high resolution model for a single model year to look at extreme precipitation events. This experiment is much shorter due to its single model year, but there are 13.5 times as many cells and timesteps are only 10 minutes instead of 30 minutes. This extra resolution means it requires at least 1.5 [[gigabyte]]s of [[RAM]]. It uses the HadAM3-N144 climate model.<ref>{{Cite web|url=http://attribution.cpdn.org//about.php|archiveurl=https://web.archive.org/web/20080306175722/http://attribution.cpdn.org//about.php|url-status=dead|title=SAP - About|archivedate=March 6, 2008}}</ref>

==History==
[[Myles Allen]] first thought about the need for large [[climate ensemble]]s in 1997, but was only introduced to the success of [[SETI@home]] in 1999. The first funding proposal in April 1999 was rejected as utterly unrealistic.

Following a presentation at the [[World Climate Conference]] in [[Hamburg]] in September 1999 and a commentary in [[Nature (journal)|''Nature'']]<ref>{{cite web|last=|first=|date=14 October 1999|title=Do-it-yourself climate prediction|url=http://www.climateprediction.net/science/pubs/nature_allen_141099.pdf|url-status=dead|archiveurl=https://web.archive.org/web/20050406143729/http://www.climateprediction.net/science/pubs/nature_allen_141099.pdf|archivedate=2005-04-06|accessdate=2005-07-31|website=}}</ref> in October 1999, thousands signed up to this supposedly imminently available program. The [[dot-com bubble]] bursting did not help and the project realised they would have to do most of the programming themselves rather than outsourcing.

It was launched September 12, 2003, and on September 13, 2003, the project exceeded the capacity of the [[Earth Simulator]] to become the world's largest climate modelling facility.

The 2003 launch only offered a [[Microsoft Windows|Windows]] "classic" client. On 26 August 2004 a [[BOINC]] client was launched which supported Windows, [[Linux]] and [[Mac OS X]] clients. "Classic" will continue to be available for a number of years in support of the [[Open University]] course. BOINC has stopped distributing classic models in favour of sulfur cycle models. A more user friendly BOINC client and website called GridRepublic, which supports climate''prediction''.net and other BOINC projects, was released in beta in 2006.

A [[thermohaline circulation]] slowdown experiment was launched in May 2004 under the classic framework to coincide with the film ''[[The Day After Tomorrow]]''. This program can still be run but is no longer downloadable. The scientific analysis has been written up in [[Nick Faull]]'s thesis. A paper about the thesis is still to be completed. There is no further planned research with this model.

A '''sulfur cycle model''' was launched in August 2005. They took longer to complete than the original models as a result of having five phases instead of three. Each timestep was also more complicated.

By November 2005, the number of completed results totalled 45,914 classic models, 3,455 thermohaline models, 85,685 BOINC models and 352 sulfur cycle models. This represented over 6 million model years processed.

In February 2006, the project moved on to more realistic climate models. The BBC Climate Change Experiment<ref>{{cite web|date=2007-05-20|title=climateprediction.net - BBC Climate Change Experiment|url=http://bbc.cpdn.org/|url-status=dead|archive-url=https://web.archive.org/web/20110224031239/http://bbc.cpdn.org/|archive-date=2011-02-24|accessdate=2011-02-20|publisher=Bbc.cpdn.org}}</ref> was launched, attracting around 23,000 participants on the first day. The [[transient climate simulation]] introduced realistic oceans. This allowed the experiment to investigate changes in the climate response as the [[climate forcing]]s are changed, rather than an equilibrium response to a significant change like doubling the [[carbon dioxide]] level. Therefore, the experiment has now moved on to doing a hindcast of 1920 to 2000 as well as a forecast of 2000 to 2080. This model takes much longer.

The [[BBC]] gave the project publicity with over 120,000 participating computers in the first three weeks.

In March 2006, a high resolution model was released as another project, the [[Seasonal Attribution Project]].

In April 2006, the coupled models were found to have a data input problem. The work was useful for a different purpose than advertised. New models had to be handed out.<ref>{{cite web |author=myles » Wed Apr 19, 2006 4:20 pm |url=http://www.climateprediction.net/board/viewtopic.php?t=4762 |title=Message Board • View topic - Message From Principal Investigator Re: April 2006 Problem |publisher=Climateprediction.net |date=2006-04-19 |accessdate=2011-02-20 |url-status=dead |archiveurl=https://web.archive.org/web/20110525005113/http://climateprediction.net/board/viewtopic.php?t=4762 |archivedate=2011-05-25 }}</ref><ref>{{cite web |url=http://www.climateprediction.net/science/pubs/nerc2005allen.pdf |title=Potted History |accessdate=2011-02-20 |url-status=dead |archiveurl=https://web.archive.org/web/20101201102953/http://climateprediction.net/science/pubs/nerc2005allen.pdf |archivedate=2010-12-01 }}</ref>

==Results to date==
The first results of the experiment were published in ''[[Nature (journal)|Nature]]'' in January 2005, showing that with only slight changes to the parameters within plausible ranges, the models can show climate sensitivities from less than 2&nbsp;°C to more than 11&nbsp;°C.<ref name="Stainforth2005">{{cite journal |last1=Stainforth |first1=D. A. |last2=Aina |first2=T. |last3=Christensen |first3=C. |last4=Collins |first4=M. |last5=Faull |first5=N. |last6=Frame |first6=D. J. |last7=Kettleborough |first7=J. A. |last8=Knight |first8=S. |last9=Martin |first9=A. |last10=Murphy |first10=J. M. |last11=Piani |first11=C. |last12=Sexton |first12=D. |last13=Smith |first13=L. A. |last14=Spicer |first14=R. A. |last15=Thorpe |first15=A. J. |last16=Allen |first16=M. R. |title=Uncertainty in predictions of the climate response to rising levels of greenhouse gases |journal=Nature |date=January 2005 |volume=433 |issue=7024 |pages=403–406 |doi=10.1038/nature03301 |pmid=15674288 |bibcode=2005Natur.433..403S |s2cid=2547937 }}</ref> The higher climate sensitivities have been challenged as implausible. For example, by Gavin Schmidt (a climate modeler with the NASA Goddard Institute for Space Studies in New York).<ref>{{cite web |url=http://news.nationalgeographic.com/news/2006/04/0419_060419_global_warming_2.html |title=Climate Less Sensitive to Greenhouse Gases Than Predicted, Study Says |publisher=News.nationalgeographic.com |date=2010-10-28 |accessdate=2011-02-20 |archive-date=2011-06-04 |archive-url=https://web.archive.org/web/20110604034919/http://news.nationalgeographic.com/news/2006/04/0419_060419_global_warming_2.html |url-status=dead }}</ref>

===Explanation===

[[Climate sensitivity]] is defined as the equilibrium response of global mean temperature to doubling levels of carbon dioxide. Current levels of carbon dioxide are around 420&nbsp;ppm and growing at a rate of 1.8&nbsp;ppm per year compared with preindustrial levels of 280&nbsp;ppm.{{cn|date=December 2020}}

Climate sensitivities of greater than 5 °C are widely accepted as being catastrophic.<ref>{{cite journal |last1=Xu |first1=Yangyang |last2=Ramanathan |first2=Veerabhadran |title=Well below 2 °C: Mitigation strategies for avoiding dangerous to catastrophic climate changes |journal=Proceedings of the National Academy of Sciences of the United States of America |date=26 September 2017 |volume=114 |issue=39 |pages=10315–10323 |doi=10.1073/pnas.1618481114 |pmid=28912354 |pmc=5625890 |bibcode=2017PNAS..11410315X |doi-access=free }}</ref> The possibility of such high sensitivities being plausible given observations had been reported prior to the climate''prediction''.net experiment but "this is the first time [[climate model|GCMs]] have produced such behaviour".<ref name="Stainforth2005" />

Even the models with very high climate sensitivity were found to be "as realistic as other state-of-the-art climate models". The test of realism was done with a root mean square error test. This does not check on realism of seasonal changes and it is possible that more diagnostic measures may place stronger constraints on what is realistic. Improved realism tests are being developed.

It is important to the experiment and the goal of obtaining a [[Probability density function|probability distribution function]] (pdf) of climate outcomes to get a very wide range of behaviours even if only to rule out some behaviours as unrealistic. Larger sets of simulations have more reliable pdfs. Therefore, models with climate sensitivities as high as 11&nbsp;°C are included despite their limited accuracy. The sulfur cycle experiment is likely to extend the range downwards.

===Piani ''et al.'' (2005)===
Published in ''Geophysical Review Letters'', this paper concludes:<ref>{{Cite journal | last1 = Piani | first1 = C. | last2 = Frame | first2 = D. J. | last3 = Stainforth | first3 = D. A. | last4 = Allen | first4 = M. R. | title = Constraints on climate change from a multi-thousand member ensemble of simulations | doi = 10.1029/2005GL024452 | journal = Geophysical Research Letters | volume = 32 | issue = 23 | pages = L23825 | year = 2005 | url = http://climateprediction.net/science/pubs/Piani_GRL.pdf | bibcode = 2005GeoRL..3223825P | s2cid = 56227360 | url-status = dead | archiveurl = https://web.archive.org/web/20120209104343/http://www.climateprediction.net/science/pubs/Piani_GRL.pdf | archivedate = 2012-02-09 }}</ref><blockquote>When an internally consistent representation of the origins of model-data discrepancy is used to calculate the probability density function of climate sensitivity, the 5th and 95th percentiles are 2.2&nbsp;K and 6.8&nbsp;K respectively. These results are sensitive, particularly the upper bound, to the representation of the origins of model data discrepancy.</blockquote>

== Use in education ==
There is an [[Open University]] short course<ref name=":0" /> and teaching material<ref>{{cite web|last=|first=|date=|title=Resources for Schools|url=http://climateprediction.net/schools/resources.php|url-status=dead|archiveurl=https://web.archive.org/web/20051016161204/http://www.climateprediction.net/schools/resources.php|archivedate=2005-10-16|accessdate=2005-07-21|website=climateprediction.net}}</ref> available for schools to teach subjects relating to climate and climate modelling. There is also teaching material available for use in Key Stage 3/4 Science, A level Physics (Advanced Physics), Key Stage 3/4 Mathematics, Key Stage 3/4 Geography, 21st Century Science, Science for Public Understanding, Use of Mathematics, Primary.

== The original model ==
The original experiment is run with [[HadSM3]], which is the [[HadAM3]] atmosphere from the [[HadCM3]] model but with only a "slab" ocean rather than a full dynamic ocean. This is faster (and requires less memory) than the full model, but lacks dynamical feedbacks from the ocean, which are incorporated into the full coupled-ocean-atmosphere models used to make projections of climate change out to 2100.

Each downloaded model comes with a slight variation in the various model [[Parametrization (climate)|parameters]].

In the initial "calibration phase" of 15 model years, the model calculates the "flux correction"; extra ocean-atmosphere fluxes that are needed to keep the model ocean in balance (the model ocean does not include currents; these fluxes to some extent replace the heat that would be transported by the missing currents).

In the "control phase" of 15 years, the ocean temperatures are allowed to vary. The flux correction ought to keep the model stable, but [[feedback]]s developed in some of the runs. There is a quality control check, based on the annual mean temperatures, and models which fail this check are discarded.

In the "double CO<sub>2</sub> phase", the CO<sub>2</sub> content is instantaneously doubled and the model run for a further 15 years, which in some cases is not quite sufficient model time to settle down to a new (warmer) equilibrium. In this phase some models which produced physically unrealistic results were again discarded.

The quality control checks in the control and 2*CO<sub>2</sub> phases were quite weak: they suffice to exclude obviously unphysical models but do not include (for example) a test of the simulation of the seasonal cycle; hence some of the models passed may still be unrealistic. Further quality control measures are being developed.

The temperature in the doubled CO<sub>2</sub> phase is exponentially extrapolated to work out the equilibrium temperature. Difference in temperature between this and the control phase then gives a measure of the [[climate sensitivity]] of that particular version of the model.

==Visualisations==
[[Image:CPView.JPG|thumb|right|400px|CPView]]Many volunteer computing projects have [[screensaver]]s to visually indicate the activity of the application, but they do not usually show its results as they are being calculated. By contrast, climate''prediction''.net not only uses a built-in visualisation to show the climate of the world being modelled, but it is interactive which allows different aspects of climate (temperature, rainfall, etc.) to be displayed. In addition, there are other, more advanced visualisation programs that allow the user to see more of what the model is doing (usually by analysing previously generated results) and to compare different runs and models.

The real-time desktop visualisation for the model launched in 2003 was developed<ref>{{cite journal | author1 = J.P.R.B. Walton |author2=D. Frame |author3=D.A. Stainforth | title = Visualization for Public-Resource Climate Modeling | pages = 103–108 | journal = Data Visualization 2004 |editor= O. Deussen |editor2=C. Hansen |editor3=D. Keim |editor4=D. Saupe | url = http://www.climateprediction.net/science/pubs/tr1_06.pdf | access-date = 2006-07-31 | archive-url = https://web.archive.org/web/20061018212958/http://www.climateprediction.net/science/pubs/tr1_06.pdf | archive-date = 2006-10-18 | url-status = dead }}</ref> by Jeremy Walton at [[The Numerical Algorithms Group Ltd|NAG]], enabling users to track the progress of their simulation as the cloud cover and temperature changes over the surface of the globe. Other, more advanced visualisation programs in use include ''CPView'' and ''IDL Advanced Visualisation''. They have similar functionality. CPView was written by Martin Sykes, a participant in the experiment. The IDL Advanced Visualisation was written by Andy Heaps of the [[University of Reading]] ([[United Kingdom|UK]]), and modified to work with the BOINC version by Tesella Support Services plc.

Only CPView allows you to look at unusual diagnostics, rather than the usual Temperature, Pressure, Rainfall, Snow, and Clouds.<ref>{{cite web |url=http://www.users.globalnet.co.uk/~sykesm/cpviewdataindex.html |title=Data Index |publisher=Users.globalnet.co.uk |date=2004-08-17 |accessdate=2011-02-20 |archive-date=2011-06-05 |archive-url=https://web.archive.org/web/20110605222243/http://www.users.globalnet.co.uk/~sykesm/cpviewdataindex.html |url-status=live }}</ref> Up to 5 sets of data can be displayed on a map. It also has a wider range of functions like Max, Min, further memory functions, and other features.

The Advanced Visualisation has functions for graphs of local areas and over 1 day, 2 days, and 7 days, as well as the more usual graphs of season and annual averages (which both packages do). There are also Latitude - Height plots and Time - Height plots.

The download size is much smaller for CPView and CPView works with [[Windows 98]].

As of December 2008 there is no visualisation tool that works with the newer CPDN models. Neither CPView nor Advanced Visualisation have been updated to display data gathered from those models. So users can only visualize the data through the screensaver.

== BBC Climate Change Experiment ==
The '''BBC Climate Change Experiment''' was a [[BOINC]] project led by [[Oxford University]] with several partners including the UK [[Met Office]], the [[BBC]], the [[Open University]] and [[Reading University]]. It is the [[transient coupled model]] of the climateprediction.net project.

Many participants joined the project with over 120,000 people signing up in teams.<ref>{{Cite web|url=https://www.boincstats.com/?pr=cce|archiveurl=https://web.archive.org/web/20101214000105/http://boincstats.com/stats/project_graph.php?pr=cce|url-status=dead|title=Home {{pipe}} BOINCstats/BAM!|archivedate=December 14, 2010|website=www.boincstats.com}}</ref>

Results continued to be collected for some time with the follow-up television program being aired in January 2007. On 8 March 2009, climate''prediction''.net officially declared that BBC Climate Change Experiment was finished, before shutting down the project.<ref>[http://climateprediction.net/news BBC Experiment Finished] {{Webarchive|url=https://web.archive.org/web/20100105162933/http://climateprediction.net/news |date=2010-01-05 }} climateprediction.net Official Website Project News</ref>

== See also ==
{{portal|Global Warming}}
{{cols}}
* [[Climate model]]
* [[Global climate model]]
* [[Climate ensemble]]
* [[Volunteer computing]]
* [[List of volunteer computing projects]]
* [[Berkeley Open Infrastructure for Network Computing|BOINC]]
* [[Sensitivity analysis]] and [[Uncertainty analysis]]
{{colend}}

==References==
{{Reflist|2}}

== External links ==
{{cols}}
* {{Official website}}
* [https://web.archive.org/web/20071104020929/http://www.allprojectstats.com/po.php?projekt=21 Statistics for climate''prediction''.net]
* {{YouTube|id=Mae7JfL1giE|title=climateprediction.net screensaver video}}
* {{Cite podcast |url=https://podcasts.google.com/feed/aHR0cHM6Ly9mZWVkcy5jYXB0aXZhdGUuZm0vYm9pbmNyYWRpby8/episode/NzEwODEyYTUtMjgzNy00YjRhLWJlMzUtYWUwNWMwZjkwM2Iw |title=climateprediction.net |website=BOINC Radio project brief}}
{{Commons}}
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{{BOINC topics}}
{{Atmospheric, Oceanographic and Climate Models}}

{{DEFAULTSORT:climateprediction.net}}
[[Category:Volunteer computing projects]]
[[Category:Information technology organisations based in the United Kingdom]]
[[Category:Numerical climate and weather models]]
[[Category:Meteorology and climate education]]
[[Category:Science and technology in Oxfordshire]]
[[Category:Science in society]]