The following code allows us to have custom loading screens when loading maps, either unique ones depending on the map name, or a default one. The final aspect will make it look like in No More Room in Hell, or Obsidian Conflict.
Tf2 Custom Loading Screen
Currently Steam Link does not work with Wayland. You will only see a blank screen or even flickering when connecting to a Steam host running on Wayland. So you have to disable Wayland in /etc/gdm/custom.conf:
If the game does not recognize your screen's resolution, launch the game with Game Launcher and check the Unity screen selector option to correct the resolution. This will give you a GUI in which you can select the correct screen when the game is started.
The launcher often shows errors like Error loading page. It is possible to bypass the launcher by editing the games startup configuration /.local/share/Steam/steamapps/common/Sid Meier's Civilization VI/Civ6 and changing the line ./GameGuide/Civ6 to ./Civ6Sub.
If you have a secondary monitor you might have a part of your lower screen you cannot reach in menus.If on Gnome you can try to open the overview (Super key) and drag the game to the other monitor and back.
The Steam overlay in FTL does not function as it is not a 3D accelerated game. Because of this the desktop notifications will be visible. If playing in fullscreen, therefore, these notifications in some systems may steal focus and revert you back to windowed mode with no way of going back to fullscreen without relaunching. The binaries for FTL on Steam have no DRM and it is possible to run the game without Steam running, so in some cases that may be optimum - just ensure that you launch FTL via the launcher script in GAME/data/ rather than the FTL binary in the $arch directory.
While in the process of joining a server, downloading resources, etc, the game seems to hang and after a while, perhaps during the "sending client info" portion the game crashes, usually without any error messages. Error does not give much information, however, the process for Garry's mod is killed.
Then go to cam_ext.cfg and next to the display setting place a simi-colon prefix next to the use_d3d_display option so it should be like this ;use_d3d_display it should then properly not go off-screen and should stay full screen within the active main screen.
If you are using Chris' FPS Configs or any other FPS config, you may have set mat_picmip to 2. This spawns multiple threads for texture loading, which may cause more jittering and lag on Linux, especially on alternative kernels. Try setting it to -1, the default.
You need to manually edit the preferences file (found in /.local/share/feral-interactive/Tomb Raider/) and change the ExclusiveFullscreen option to 0. After this you should be able to successfully start the game (after which you may exit and revert that option to a 1 to restore fullscreen).
If the game resolution is wrong when using a dual monitor setup and you cannot see the whole window edit /.frozenbyte/Trine2/options.txt and change the options ForceFullscreenWidth and ForceFullscreenHeight to the resolution of your monitor on which you want to play the game.
Games made in C# often have a problem with some locales (e.g. Russian, German) because developers do not specify locale-agnostic number formatting. This can result in some game screens loading only partially, problems with online features or other bugs.
Splash texts are the yellow lines of text on the title screen. They are randomly chosen from the list below and often feature references to popular culture (e.g. websites, quotes and video games). The splash pulsates on the title screen twice per second.
Cinnamon, by default, skips the compositing rendering manager if an application runs fullscreen, which in turn, disables Vsync. Enabling the compositing manager turns ON Vsync and (depending on the system) slows the game down.
In this paper, we review the recent hypothesis, based mostly on geomorphological features, that a 130 m-wide sag pond, surrounded by a saddle-shaped rim from the Sirente plain (Abruzzi, Italy), is the first-discovered meteoritic crater of Italy. Sub-circular depressions (hosting ponds), with geomorphological features and size very similar to those exhibited by the main Sirente sag, are exposed in other neighboring intermountain karstic plains from Abruzzi. We have sampled present day soils from these sag ponds and from the Sirente sags (both the main "crater" and some smaller ones, recently interpreted as a crater field) and various Abruzzi paleosols from excavated trenches with an age range encompassing the estimated age of the "Sirente crater." For all samples, we measured the magnetic susceptibility and determined the Ni and Cr contents of selected specimens. The results show that the magnetic susceptibility values and the geochemical composition are similar for all samples (from Sirente and other Abruzzi sags) and are both significantly different from the values reported for soils contaminated by meteoritic dust. No solid evidence pointing at an impact origin exists, besides the circular shape and rim of the main sag. The available observations and data suggest that the "Sirente crater," together with analogous large sags in the Abruzzi intermountain plains, have to be attributed to the historical phenomenon of "transumanza" (seasonal migration of sheep and shepherds), a custom that for centuries characterized the basic social-economical system of the Abruzzi region. Such sags were excavated to provide water for millions of sheep, which spent summers in the Abruzzi karstic high pasture lands, on carbonatic massifs deprived of natural superficial fresh water. Conversely, the distribution of the smaller sags from the Sirente plain correlates with the local pattern of the calcareous bedrock and, together with the characteristics of their internal structure, are
In this presentation, I review the neotectonic development of the Gobi Corridor region of Central Asia and explore crustal controls on the style and kinematics of mountain building north of Tibet. The Gobi Corridor includes the actively deforming Gobi Altai-Altai, eastern Tien Shan, Beishan and North Tibetan Foreland. Archean basement beneath Central Mongolia has acted as a rigid backstop focusing Late Miocene-Recent crustal reactivation in the Altai and Gobi Altai around the western, southwestern and southern margins of the Hangay Dome. The northern Gobi Altai is characterized by sinistral transpression and growth and coalescence of restraining bends and thrust blocks along the Ih Bogd deforming belt. The southern Gobi Altai is kinematically linked with the easternmost Tien Shan as a separate deforming belt nucleated along the Gobi-Tien Shan sinistral strike-slip fault system. The enigmatic Beishan plateau may be a peripheral bulge to northernmost Tibet and contains two structural culminations within it characterized by sinistral transpression along the Mazong Shan and Xingxingxia fault systems. The North Tibetan foreland contains the Sanweishan and Nanjieshan basement ridges also characterized by Quaternary uplift and oblique sinistral-thrust kinematics. The diffusely reactivated, crust of the Gobi Corridor is largely comprised of amalgamated Cambrian-Permian terranes that are non-cratonized. The region was mechanically weakened by widespread Cretaceous continental rifting and thermally weakened by Jurassic-Tertiary basaltic volcanism and can be regarded as the rheological `soft core' of Central Asia. The kinematics of Late Cenozoic reactivation throughout the region are fundamentally controlled by the angular relationship between SHmax and older basement strike trends. The diffuse array of faults active in the Quaternary and distribution of historical seismicity suggests that tectonic loading is shared by many potentially active faults, thus extrapolation of
Diagnostic laboratory services in Alberta have been dramatically restructured over the past five years. In 1994, Alberta Health embarked on an aggressive laboratory restructuring that cut back approximately 30% of the overall monies previously paid to the laboratory service sector in Calgary. A unique service delivery model consolidated all institutional and community-based diagnostic testing in a company called Calgary Laboratory Services (CLS) in late 1996. CLS was formed by a public/private partnership between the Calgary Regional Health Care Authority (CRHA) and MDS-Kasper Laboratories. By virtue of its customer service base and scope of testing, CLS provides comprehensive regional laboratory services to the entire populace. Regional microbiology services within CLS have been successfully consolidated over the past three years into a centralized high volume laboratory (HVL). Because the HVL is not located in a hospital, rapid response laboratories (RRLs) are operated at each acute care site. Although the initial principle behind the proposed test menus for the RRLs was that only procedures requiring a clinical turnaround time of more than 2 h stay on-site, many other principles had to be used to develop and implement an efficient and clinically relevant RRL model for microbiology. From these guiding principles, a detailed assessment of the needs of each institution and extensive networking with user groups, the functions of the microbiology RRLs were established and a detailed implementation plan drawn up. The experience at CLS with regards to restructuring a regional microbiology service is described herein. A post-hoc analysis provides the pros and cons of directing and operating a regionalized microbiology service. PMID:22346397
The Tem tribe in the Central Region of Togo is a population with an extensive knowledge of medicinal plants. However, little is known about their medical practices, principally the use of plants in the management of diabetes mellitus (DM) and hypertension (HTN). The present study documented the indigenous medicinal plant utilization for the management of DM and HTN in the Togo Central Region. From March to October 2010, 55 traditional healers were interviewed about their knowledge on the use of plants for DM and HTN treatment. The results revealed that 35/55 (63.64%) healers had treated at least one case of DM and/or HTN. They highlighted the use of 64 species belonging to 31 families in the treatment of DM and/or HTN. The most used plants against diabetes were Psidium guajava L. (Myrtaceae), Khaya senegalensis A. Juss. (Meliaceae), Sarcocephalus latifolius (Sm.) E.A. Bruce (Rubiaceae), Annona muricata L. (Annonaceae), Bridelia ferruginea Benth. (Phyllanthaceae), and Securidaca longepedunculata Fresen. (Polygalacae), while Allium sativum L. (Liliaceae) and Parkia biglobosa Benth. (Fabaceae), followed by Khaya senegalensis A. Juss. (Meliaceae), Gardenia ternifolia Schumach. (Rubiaceae), and Persea americana Mill. (Lauraceae) were the most commonly cited as antihypertensive. The issue revealed that traditional healers of the above mentioned region have basic knowledge regarding herbal medicine for DM and HTN in comparison with previous published reports. Further pharmacological screening of the identified plants should be conducted to ascertain the effectiveness of these plants. 2ff7e9595c
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