Power+Plant+C%26I+systems.jpg' alt='Chloride Software For Power Start 600 Lb' title='Chloride Software For Power Start 600 Lb' />AMDs Vega Graphics Cards Could Kick Off a War. Every nerd loves a good tech war Windows vs Mac, Apple vs Android, Intel vs AMD. They give us something to armchair argue about over beers with friendsor to rant over in the comments of illustrious tech blogs. After spending the weekend playing with AMDs new Vega 6. L.jpg' alt='Chloride Software For Power Start 600 Lb' title='Chloride Software For Power Start 600 Lb' />The Airbus A330 is a medium to longrange widebody twinengine jet airliner made by Airbus. Versions of the A330 have a range of 5,000 to 13,430 kilometres 2,700. Background. The load on any power network must be immediately matched by its supply and its ability to transmit that power. Any overload of a power line or generator. The AMD Vega 64 and Vega 56 are an attempt to lure people away from the 600 Nvidia 1080 with cheaper options that start to approximate its performance. Vega 5. 6 graphics cards, I think I can safely say an old tech war is back oneven if AMDs latest salvo feels paltry. Nvidia might be leading the discrete graphics card industry, but AMDs two newest cards are cheap and fast enough to finally compete. I/41SR-ZAXj5L._SY355_.jpg' alt='Chloride Software For Power Start 600 Lb' title='Chloride Software For Power Start 600 Lb' />Former Uber CEO Travis Kalanick is down, but he somehow does not yet consider himself out, according to a Sunday report in the New York Times. Web portal for buildingrelated information with a whole building focus provided by the National Institute of Building Sciences. Areas include Design Guidance. And that can only mean good things for PC users. AMD Vega 6. 4 AMD Vega 5. Price4. 00 Vega 5. Vega 6. 4What is it Discrete GPUs that are competing against graphics titan Nvidia. No Like. Dont expect any flash. AMD, which purchased Nvidias previous competitor, ATI Graphics, has been losing the GPU war for a while. Nvidia is currently producing the majority of discrete graphics cards found in computers today. According to Jon Peddie Research, by the end of 2. Nvidia had more than 7. AMD trailed far behind with just 2. So AMD decided to focus on building cheap cards to go in cheap machineslike the 5. I reviewed back in April. The AMD Vega 6. 4 and Vega 5. Nvidia 1. 08. 0 with cheaper options that start to approximate its performance. When the Vega microarchitecture the cards are based on was announced back at CES, people didnt immediately leap out of their seats. AMD didnt have a cool hook like when Nvidia announced it had spent billions to develop its latest card. All AMD had was a promise of speed when the cards arrived this summer. Eight months later, the Vega 6. The AMD Vega 6. 4 retails for 5. AMD Vega 5. 6 retails for 4. Both also have 8. GB of RAM built in. The big difference between the two is the number of compute unitsthink of those like the cores in a CPU the more the better. The Vega 6. 4 has 6. Vega 5. 6 has 5. 6. When I compared the Vegas to the 1. I found was far less exciting that what Id hoped for. While the AMD Vega 6. Instead it was sort of like going to the car lot and having to choose between a Honda Civic or a Toyota Corolla. Theyre both very nice, cost the same, and do the same damn thing. What was really astounding was the performance of the 4. AMD Vega 5. 6. Despite being considerably cheaper than both the Vega 6. Nvidia 1. 08. 0, it played Overwatch and Civilization VI only marginally slower. The 1. 08. 0 managed 1. Overwatch on Ultra at 4. K, the the Vega 6. Vega 5. 6 pulled of 9. K with the graphics cranked to Ultra. Thats not just a little respectable, thats really damn good. In Civilization VI the difference was even smaller, with the Vega 5. Vega 6. 4. In one case the Vega 5. Nvidia 1. 08. 0, and was on par with the more expensive Vega 6. When I rendered a frame in Blender, graphics software that allows you to create large 3. D images that heavily tax a discrete GPU, the Nvidia 1. The Vega 6. 4 rendered the same frame in 9 minutes and 2. The Vega 5. 6 Just 9 minutes and 2. With that kind of neck and neck performance theres no reason to really buy either a Nvidia 1. Vega 6. 4 over the Vega 5. But speed isnt the only factor to consider when buying a discrete graphics card. See, the cards that go in your desktop PC are very power hungry. If your power supply cant provide enough juice, the GPU is worthless, and that is one place Nvidia performs far better than AMD every time. The Nvidia 1. 08. The Vega 5. 6 requires 2. Vega 6. 4 requires a whopping 2. All the extra juice means you have to use not one, but two 8 pin power connectors from your power supply. The Nvidia 1. 08. With the new Vega cards AMD is trying to get around the power constraints of it GPUs by offering some software solutions. The first, and most notable, is the Radeon Chill feature, and its actually sort of clever. It operates under the assumption that people dont really need the fastest video card, they just need one fast enough for their monitor. Both AMD and Nvidia have a technology that allows cards to sync with monitors to deliver top level graphics without straining the GPU Nvidia calls its tech G Sync, while AMD calls it Free. Sync. But you have to have a special monitor that works with the syncing technology and no monitor works with both the AMD and Nvidia sync tech. Radeon Chill works with any monitor. You simply tell it how many frames you actually want to see per second. Got a monitor that refreshes 6. Set the max to 6. Radeon Chill makes magic happen. In addition, the software doesnt try and churn out 6. Instead it recognizes moments with static visuals and dramatically cuts down on how much power is being usedand you can tweak the number as well. Want it to never go below 3. Just set the slider in the AMD software. AMD added other software features that give users a better ability to throttle their cards without diminishing visuals. Theres a power saver mode which allows you to force the cards to sip as little as 1. Frame Rate Target Control mode that lets you cap the frames per second and an Enhanced Sync mode that figures out the optimal frame to display on screen, even if it means skipping a few other frames. All these features make the AMD Vega cards feel incredibly practical versus the excess and overclocking shenanigans of Nvidia. Its as if AMD is trying to say if you want nose bleed speed go with Nvidia, but if you want control and a nice experience join us. Thats a reasonable sale to an old woman such as myself. I play my games on 4. K TVs that have no syncing technology though Microsoft suggests that could change next year and can only show between 6. I dont need dual video cards or crazy numbers, I need good enough. And the AMD Vega 6. AMD Vega 5. 6 are good enough. If youre looking for a reasonably priced card the AMD Vega 5. But these cards arent enough to lure Nvidia loyalists or the power hungry away. As the latest salvo in the war between Nvidia and AMD goes, the new Vega cards are pretty weak. READMEThese cards are neck and neck with the 5. Nvidia 1. 08. 0 in the speed department. But they natively draw a lot more power. A bevy of software features try to resolve the power issue, but it means youre effectively throttling your shiny new GPU. SPEC DUMPAMD Vega 6. GB of RAM 6. 4 compute units 1. MHz base GPU clock 4. GBs memory bandwidth 2. TFLOPS 3 x Display. Port 1 x HDMIAMD Vega 5. GB of RAM 5. 6 compute units 1. MHz base GPU clock 4. GBs memory bandwidth 2. TFLOPS 3 x Display. Northeast blackout of 2. Wikipedia. This image shows states and provinces that experienced power outages. Not all areas within these political boundaries were affected. The Northeast blackout of 2. Northeastern and Midwestern United States and the Canadian province of Ontario on Thursday, August 1. EDT. 1Some power was restored by 1. Most did not get their power back until two days later. In other areas it took nearly a week or two for power to be restored. At the time, it was the worlds second most widespread blackout in history, after the 1. Southern Brazil blackout. The outage, which was much more widespread than the Northeast Blackout of 1. Ontario and 4. 5 million people in eight U. S. states. The blackouts primary cause was a programming error or bug in the alarm system at the control room of First. Energy Corporation, an Akron, Ohio based company. The lack of an alarm left operators unaware of the need to re distribute power after overloaded transmission lines hit unpruned foliage, triggering a race condition in the energy management system software, a bug affecting the order of operations in the system. What would have been a manageable local blackout cascaded into massive widespread distress on the electric grid. Immediate impacteditAccording to the New York Independent System Operator NYISO the ISO responsible for managing the New York state power grid a 3,5. Ontario affected the transmission grid at 4 1. EDT. 5For the next 3. EDT, outages were reported in parts of Ohio, New York, Michigan, and New Jersey Cleveland, Akron, Toledo, New York City, Westchester, Orange and Rockland counties, Baltimore, Rochester, Syracuse, Binghamton, Albany, Detroit, and parts of New Jersey, including the city of Newark. This was followed by outages in other areas initially unaffected, including all of New York City, portions of southern New York state, New Jersey, Vermont, Connecticut, and Toronto, as well as most of the province of Ontario. Eventually, a large, somewhat triangular area bounded by Lansing, Michigan, Sault Ste. Marie, Ontario, the shore of James Bay, Ottawa, New York, and Toledo was left without power. According to the official analysis of the blackout prepared by the US and Canadian governments, more than 5. In the minutes before the event, the NYISO managed power system was carrying 2. MW of load. At the height of the outage, the load had dropped to 5,7. MW, a loss of 8. 0. Essential services remained in operation in some of these areas. In others, backup generation systems failed. Telephone networks generally remained operational, but the increased demand triggered by the blackout left many circuits overloaded. Water systems in several cities lost pressure, forcing boil water advisories to be put into effect. Cellular service was interrupted as mobile networks were overloaded with the increase in volume of calls. Major cellular providers continued to operate on standby generator power. Television and radio stations remained on the air, with the help of backup generators, although some stations were knocked off the air for periods ranging from several hours to the length of the entire blackout. I Render Sketchup Free Download Crack Autocad. It was a hot day over 3. C, or 8. 8 F in much of the affected region, and the heat played a role in the initial event that triggered the wider power outage. The high ambient temperature increased energy demand, as people across the region turned on fans and air conditioning. This caused the power lines to sag as higher currents heated the lines. In areas where power remained off after nightfall, the Milky Way and orbiting artificial satellites became visible to the naked eye in metropolitan areas where they cannot ordinarily be seen due to the effects of particulate air pollution and light pollution. Most of the Amtrak. Northeast Corridor service was interrupted, as it uses electric locomotives electrified commuter railways also shut down. Via Rail in Canada was able to continue most of its service. The power outages effects on international air transport and financial markets were widespread. The reliability of the electrical grid was called into question. Unaffected regionseditWithin the area affected, about 2. Niagara Peninsula of Ontario the easternmost corner of Ontario centered on Cornwall the Buffalo, NY area, excluding southern Erie county, along the shore of Lake Huron via a feeder line to Owen Sound from Bruce Nuclear Generating Station. Three of the four Bruce B units were able to throttle back their output without a complete shutdown, then reconnect to the grid within five hours the portion of New York state including parts of Albany and north and west of Albany a small pocket of mid east Michigan the Upper Peninsula of Michigan and small pockets in New Jersey. The unaffected area was protected by transmission circuit devices at the Sir Adam Beck Hydroelectric Generating Stations in Niagara Falls, coincidentally, the starting point of the Northeast blackout of 1. Cornwall, as well as central New York state. Philadelphia and the surrounding mid Atlantic areas were also completely unaffected because PJM disconnected them. The power plantwhich in East China Township, Michigan, remained online for about 3. BackgroundeditThe load on any power network must be immediately matched by its supply and its ability to transmit that power. Any overload of a power line or generator can cause costly damage, so the affected device is disconnected from the network if an overload is detected. The electrical resistance of a power line causes it to produce more heat as the current it carries increases. If this heat is not sufficiently dissipated, the metal conductor in the line may soften such that it sags under its own weight between supporting structures. If the line sags too low, a flash over to nearby objects such as trees may occur, causing a transient increase in current. Automatic protective relays detect the excessively high current and quickly disconnect the line, with the load previously carried by the line transferred to other lines. If the other lines do not have enough spare capacity to accommodate the extra current, their overload protection will react as well, causing a cascading failure. System operators are responsible for ensuring that power supply and loads remain balanced, and for keeping the system within safe operational limits such that no single fault can cause the system to fail. After a failure affecting their system, operators must obtain more power from generators or other regions or shed load meaning to intentionally cut power or reduce voltage to a given area until they can be sure that the worst remaining possible failure anywhere in the system will not cause a system collapse. In an emergency, they are expected to immediately shed load as required to bring the system into balance. To assist the operators there are computer systems, with backups, which issue alarms when there are faults in the transmission or generation system. Power flow modeling tools let them analyze the current state of their network, predict whether any parts of it may be overloaded, and predict the worst possible failure remaining, so that they can change the distribution of generation or reconfigure the transmission system to prevent a failure should this situation occur. If the computer systems and their backups fail, the operators are required to monitor the grid manually, instead of relying on computer alerts.