Why is ethos 0
Publish: 2021-05-19 04:37:18
1. computing power refers to computing power. In the process of getting bitcoin through "mining", we need to find its corresponding solution M. for any 64 bit hash value, there is no fixed algorithm to find its solution M. we can only rely on computer random hash collisions. How many hash collisions can a mining machine do per second is the representative of its "computing power", Unit is written as hash / s, which is the so-called workload proof mechanism pow (proof
of
work)
What does 1p mean
first of all, 1p computing power is equivalent to about 1.05 million g, which means that if you have 1g computing power of the whole network, you can get almost 1.05 million of bitcoin output of the whole network. According to the output of 3800 bitcoins per day, we can see that the daily income of 1g of computing power has dropped to 0.0036 bitcoins, which is about 2.7 yuan according to the current market price. If the electricity cost and mining machinery hardware cost are included, the profit is almost gone
secondly, 1p's whole network computing power seems amazing, but in fact, in a year's time, you will think it's just a pediatrics, because cointera will launch 2p miner in December, and bitmine will launch 4P miner in March next year. If these companies are not put in biochemical weapons by Syria, it should be expected that bitcoin's whole network computing power will reach more than 10p in a year's time, By then, 1g of computing power will only be able to dig 0.00036 bitcoins a day.
of
work)
What does 1p mean
first of all, 1p computing power is equivalent to about 1.05 million g, which means that if you have 1g computing power of the whole network, you can get almost 1.05 million of bitcoin output of the whole network. According to the output of 3800 bitcoins per day, we can see that the daily income of 1g of computing power has dropped to 0.0036 bitcoins, which is about 2.7 yuan according to the current market price. If the electricity cost and mining machinery hardware cost are included, the profit is almost gone
secondly, 1p's whole network computing power seems amazing, but in fact, in a year's time, you will think it's just a pediatrics, because cointera will launch 2p miner in December, and bitmine will launch 4P miner in March next year. If these companies are not put in biochemical weapons by Syria, it should be expected that bitcoin's whole network computing power will reach more than 10p in a year's time, By then, 1g of computing power will only be able to dig 0.00036 bitcoins a day.
2.
computing power refers to computing power, refers to that in the process of getting bitcoin through "mining", we need to find its corresponding solution M. for any 64 bit hash value, there is no fixed algorithm to find its solution M. we can only rely on computer random hash collisions. How many hash collisions can a mining machine do per second, is the representative of its "computing power". The unit is written as hash / s, which is the so-called proof of work mechanism (POW)
3.
두 &# 49324;
4. Don't think about mining. When you install the miner, the price may drop. As a whole, the electricity bill for one day is not enough. Mining machine, then at least 6 cards to have effect, the previous hd7850 speed is difficult to get a bitcoin a month!
5. It is puzzling to ask questions, highlighting the weak cultural foundation of the subject
what kind of computing power is it? Mining, video coding, or game rendering
as a low-end game graphics card, how can its computing power in game rendering be zero
it's impossible to think about it with your toes or buttocks.
what kind of computing power is it? Mining, video coding, or game rendering
as a low-end game graphics card, how can its computing power in game rendering be zero
it's impossible to think about it with your toes or buttocks.
6. Lidar is a kind of remote sensing measurement which uses laser as light source and detects the light wave signal without interaction between laser and detected. The lidar technology using vibration Raman technology is Raman lidar, which is mainly used for atmospheric remote sensing measurement. Raman lidar is a kind of remote sensing technology. As an active remote sensing detection technology and tool, lidar has a history of nearly 50 years. At present, it is widely used in Earth Science and meteorology, physics and astronomy, biology and ecological conservation, military and other fields. Among them, the traditional lidar is mainly used for land vegetation monitoring, laser atmospheric transmission, fine weather detection, global climate prediction, marine environment monitoring and so on. With the rapid development of laser technology, fine spectroscopic technology, photoelectric detection technology and computer control technology, lidar has unique advantages in remote sensing detection height, spatial resolution, time continuous monitoring and measurement accuracy
lidar is a radar system that detects the position, velocity and other characteristics of the target by emitting laser beam. In terms of working principle, there is no fundamental difference with microwave radar: transmitting the detection signal (exciting beam) to the target, and then comparing the received signal (target echo) reflected from the target with the transmitted signal, after proper processing, the relevant information of the target can be obtained, such as the target distance, azimuth, altitude, speed, attitude, even shape and other parameters, so as to realize the target detection Missile and other targets are detected, tracked and identified. According to different detection technologies, lidar can be divided into direct detection type and coherent detection type. According to different functions, it can be divided into tracking radar, moving target indication radar, velocity measurement radar, wind shear detection radar, target recognition radar, imaging radar and vibration sensing radar
the working principle of lidar and radio radar is basically the same, and depends on the detection technology used. The basic structure of the direct detection lidar is quite similar to that of the laser rangefinder. When working, a signal is sent by the transmitting system, which is collected by the receiving system after being reflected by the target, and the distance of the target is determined by measuring the round-trip propagation time of the laser signal. As for the radial velocity of the target, it can be determined by the Doppler frequency shift of the reflected light. It can also be obtained by measuring two or more distances and calculating the rate of change
coherent detection lidar can be divided into monostable and bistable. In the so-called monostable system, the transmitting and receiving signals share one optical aperture and are isolated by the transmitting receiving switch. The bistable system consists of two optical apertures for transmitting and receiving signals respectively. The transmit receive switch is no longer needed, and the rest is the same as the monostable system
lidar is a combination of laser technology and radar technology. It consists of transmitter, antenna, receiver, tracking rack and information processing. The transmitter is a variety of lasers, such as CO2 laser, Nd doped yttrium aluminum garnet laser, semiconctor laser and wavelength tunable solid-state laser; The antenna is an optical telescope; The receiver uses various types of photodetectors, such as photomultiplier tubes, semiconctor photodiodes, avalanche photodiodes, infrared and visible multi detector devices, etc. Lidar uses pulse or continuous wave, and the detection methods include direct detection and heterodyne detection
weather radar is a kind of radar specially used for atmospheric detection. It belongs to active microwave atmospheric remote sensing equipment. The high altitude wind radar, which is used with radiosonde, is only a kind of special equipment for positioning displacement balloons, and is generally not regarded as this kind of radar. Weather radar is one of the main detection tools for warning and forecasting medium and small-scale weather systems (such as typhoon and rainstorm clouds). It works in the frequency band of 30-3000 MHz. Generally, it has high detection sensitivity. Because the detection altitude range can reach 1-100 km, it is also known as the middle stratosphere troposphere radar (MST radar). It is mainly used to detect the vertical distribution of atmospheric dynamic parameters such as wind, atmospheric turbulence and atmospheric stability in clear air
the initial interest of the U.S. Department of defense in lidar is similar to that of microwave radar, that is, it focuses on target monitoring, acquisition, tracking, damage assessment (satka) and navigation. However, because the microwave radar is enough to complete most of the damage assessment and navigation tasks, the military lidar plans to focus on a small number of tasks that the former can not complete well, such as high-precision damage assessment, extremely accurate navigation correction and high-resolution imaging. In military, it is often hoped that the aircraft can fly at low altitude, but the minimum altitude of the aircraft is limited by the ability of sensors to detect small obstacles. Not to mention blocking the balloon line and other confrontation facilities, under 60 meters, all kinds of power lines, high-voltage lines, towers, masts, antenna cables and other small obstacles also have obvious dangers. The existing aircraft sensors, from human eyes to radar, are difficult to detect these dangerous objects in advance, especially at night and in bad weather conditions. Because of its high angular resolution, scanning lidar can form effective images of these obstacles in real time and provide appropriate early warning
lidar can be used to measure the trajectories of various flying targets in military. Such as the tracking and measurement of the initial phase of missile and rocket, the tracking and measurement of aircraft and cruise missile at low elevation, the precise orbit determination of satellite, etc. The combination of lidar with infrared, TV and other optoelectronic equipment forms ground, shipboard and airborne fire control systems to search, identify, track and measure targets. Because lidar can obtain the three-dimensional image and velocity information of the target, it is helpful to identify the stealth target. Lidar can monitor the atmosphere, telemeter the pollution and poison in the atmosphere, and measure the temperature, humidity, wind speed, visibility and cloud height of the atmosphere
the traditional way for marine lidar to alert, search, characterize and track underwater targets is to use large and heavy sonar, which usually weighs 600 kg to dozens of tons. Since the development of Ocean Lidar, namely airborne blue-green laser transmitting and receiving equipment, ocean underwater target detection is simple, convenient and accurate. Especially in the third generation lidar which was successfully developed after 1990s, the functions of GPS positioning and height determination were added to realize the automatic control of route and altitude. For example, the "arms" airborne mine detection lidar developed by Northrop company of the United States can work 24 hours and accurately detect suspicious targets such as underwater mines. The underwater imaging lidar developed by American Kaman space company has more advantages. It can display the shape and other characteristics of underwater targets, accurately capture targets, and take emergency measures to ensure navigation safety
in addition, lidar can also be widely used to counter electronic warfare, anti radiation missiles, ultra-low altitude penetration, missile and shell guidance, and land mine sweeping.
lidar is a radar system that detects the position, velocity and other characteristics of the target by emitting laser beam. In terms of working principle, there is no fundamental difference with microwave radar: transmitting the detection signal (exciting beam) to the target, and then comparing the received signal (target echo) reflected from the target with the transmitted signal, after proper processing, the relevant information of the target can be obtained, such as the target distance, azimuth, altitude, speed, attitude, even shape and other parameters, so as to realize the target detection Missile and other targets are detected, tracked and identified. According to different detection technologies, lidar can be divided into direct detection type and coherent detection type. According to different functions, it can be divided into tracking radar, moving target indication radar, velocity measurement radar, wind shear detection radar, target recognition radar, imaging radar and vibration sensing radar
the working principle of lidar and radio radar is basically the same, and depends on the detection technology used. The basic structure of the direct detection lidar is quite similar to that of the laser rangefinder. When working, a signal is sent by the transmitting system, which is collected by the receiving system after being reflected by the target, and the distance of the target is determined by measuring the round-trip propagation time of the laser signal. As for the radial velocity of the target, it can be determined by the Doppler frequency shift of the reflected light. It can also be obtained by measuring two or more distances and calculating the rate of change
coherent detection lidar can be divided into monostable and bistable. In the so-called monostable system, the transmitting and receiving signals share one optical aperture and are isolated by the transmitting receiving switch. The bistable system consists of two optical apertures for transmitting and receiving signals respectively. The transmit receive switch is no longer needed, and the rest is the same as the monostable system
lidar is a combination of laser technology and radar technology. It consists of transmitter, antenna, receiver, tracking rack and information processing. The transmitter is a variety of lasers, such as CO2 laser, Nd doped yttrium aluminum garnet laser, semiconctor laser and wavelength tunable solid-state laser; The antenna is an optical telescope; The receiver uses various types of photodetectors, such as photomultiplier tubes, semiconctor photodiodes, avalanche photodiodes, infrared and visible multi detector devices, etc. Lidar uses pulse or continuous wave, and the detection methods include direct detection and heterodyne detection
weather radar is a kind of radar specially used for atmospheric detection. It belongs to active microwave atmospheric remote sensing equipment. The high altitude wind radar, which is used with radiosonde, is only a kind of special equipment for positioning displacement balloons, and is generally not regarded as this kind of radar. Weather radar is one of the main detection tools for warning and forecasting medium and small-scale weather systems (such as typhoon and rainstorm clouds). It works in the frequency band of 30-3000 MHz. Generally, it has high detection sensitivity. Because the detection altitude range can reach 1-100 km, it is also known as the middle stratosphere troposphere radar (MST radar). It is mainly used to detect the vertical distribution of atmospheric dynamic parameters such as wind, atmospheric turbulence and atmospheric stability in clear air
the initial interest of the U.S. Department of defense in lidar is similar to that of microwave radar, that is, it focuses on target monitoring, acquisition, tracking, damage assessment (satka) and navigation. However, because the microwave radar is enough to complete most of the damage assessment and navigation tasks, the military lidar plans to focus on a small number of tasks that the former can not complete well, such as high-precision damage assessment, extremely accurate navigation correction and high-resolution imaging. In military, it is often hoped that the aircraft can fly at low altitude, but the minimum altitude of the aircraft is limited by the ability of sensors to detect small obstacles. Not to mention blocking the balloon line and other confrontation facilities, under 60 meters, all kinds of power lines, high-voltage lines, towers, masts, antenna cables and other small obstacles also have obvious dangers. The existing aircraft sensors, from human eyes to radar, are difficult to detect these dangerous objects in advance, especially at night and in bad weather conditions. Because of its high angular resolution, scanning lidar can form effective images of these obstacles in real time and provide appropriate early warning
lidar can be used to measure the trajectories of various flying targets in military. Such as the tracking and measurement of the initial phase of missile and rocket, the tracking and measurement of aircraft and cruise missile at low elevation, the precise orbit determination of satellite, etc. The combination of lidar with infrared, TV and other optoelectronic equipment forms ground, shipboard and airborne fire control systems to search, identify, track and measure targets. Because lidar can obtain the three-dimensional image and velocity information of the target, it is helpful to identify the stealth target. Lidar can monitor the atmosphere, telemeter the pollution and poison in the atmosphere, and measure the temperature, humidity, wind speed, visibility and cloud height of the atmosphere
the traditional way for marine lidar to alert, search, characterize and track underwater targets is to use large and heavy sonar, which usually weighs 600 kg to dozens of tons. Since the development of Ocean Lidar, namely airborne blue-green laser transmitting and receiving equipment, ocean underwater target detection is simple, convenient and accurate. Especially in the third generation lidar which was successfully developed after 1990s, the functions of GPS positioning and height determination were added to realize the automatic control of route and altitude. For example, the "arms" airborne mine detection lidar developed by Northrop company of the United States can work 24 hours and accurately detect suspicious targets such as underwater mines. The underwater imaging lidar developed by American Kaman space company has more advantages. It can display the shape and other characteristics of underwater targets, accurately capture targets, and take emergency measures to ensure navigation safety
in addition, lidar can also be widely used to counter electronic warfare, anti radiation missiles, ultra-low altitude penetration, missile and shell guidance, and land mine sweeping.
7.
How to brush diamonds with milk lumps
how to card diamonds
milk lumps can be obtained through mining and trading. It is strictly forbidden to use external swipe in the game. Once cheating is found, there will be severe punishment! Friends should be down-to-earth, don't try to brush diamond and card diamond
here's how to get diamonds by mining
first of all, you need to find a cave, whether it's a natural cave or a hole g by others. You can start your mining journey with torches and manuscripts (including diamond manuscripts)
until you find an underground lava pool (rather than a surface lava pool, which is easily confused with the one generated at sea level), it shows that you are looking for diamonds at the right depth
the diamond vein may be exposed around the rocks in the lava pool. If you look carefully, you can see the diamond. Pick up the prepared diamond draft and you can dig the diamond
8. Your sub account holds less than 3 coins, so there is no income
9. The total number of kbethos trademark applications is 1
of which 0 has been successfully registered, 1 is under application, 0 is invalid registered and 0 is on sale< According to the statistics of Bajie intellectual property rights, kbethos can also register the following trademark classifications:
category 1 (chemical agents and fertilizers)
category 2 (pigments, paints, dyes and anti-corrosion procts)
Category 3 (daily chemical procts, washing and care, spices)
category 4 (energy, fuel, grease)
category 5 (drugs, sanitary procts and Nutrition)
category 6 (metal procts, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics Metal building materials, metal materials)
class 7 (mechanical equipment, motor, transmission)
class 8 (hand tools (small), tableware, cold weapons)
class 9 (scientific instruments, electronic procts, security equipment)
class 10 (medical devices, medical supplies, alt supplies)
class 11 (lighting and sanitary ware, cold and hot equipment, electronic equipment, security equipment)
class 10 (medical devices, medical supplies, alt supplies)
class 11 (lighting and sanitary ware, cold and hot equipment Disinfection and purification)
twelfth category (transport tools, carrier parts)
thirteenth categories (arms, pyrotechnics, personal protective spray)
fourteenth category (jewelry, precious metals, Zhong Biao)
fifteenth class (musical instruments, instrumental accessories and accessories)
sixteenth categories (paper, office supplies, stationery teaching aids)
seventeenth category (rubber procts, Insulation and sound insulation materials)
class 18 (bags, leather goods, umbrellas)
class 19 (non-metallic building materials)
class 20 (furniture, furniture parts, cushions)
class 21 (kitchen appliances, household utensils, washing appliances)
class 22 (ropes, awnings, bags)
class 23 (yarn, thread, silk)
class 24 (textiles, bedclothes Towel)
category 26 (accessories, wigs, buttons and zippers)
category 27 (carpet, mat, wallpaper)
category 28 (toys, sports fitness equipment, fishing tackle)
category 29 (cooked food, meat, eggs and milk, edible oil)
category 30 (pastry, condiments, drinks)
category 31 (fresh, animals and plants, feed seeds)
category 32 (beer, meat, eggs and milk, edible oil)
category Non alcoholic beverages)
category 33 (alcohol, alcoholic beverages)
category 34 (tobacco, smoking sets)
category 35 (advertising, business management, marketing)
category 36 (financial affairs, real estate management, pawn guarantee)
category 37 (construction, interior decoration, repair and maintenance)
category 38 (telecommunications, communication services)
category 39 (transportation, warehousing, mortgage guarantee)
category Energy distribution, travel services)
class 40 (material processing, printing, sewage treatment)
class 41 (ecation and training, sports activities, entertainment services)
class 42 (R & D quality control, it services, building consulting)
class 43 (catering and accommodation, nursing, animal accommodation)
class 44 (medical treatment, beauty, gardening)
class 45 (security law Wedding (housekeeping, social service)
of which 0 has been successfully registered, 1 is under application, 0 is invalid registered and 0 is on sale< According to the statistics of Bajie intellectual property rights, kbethos can also register the following trademark classifications:
category 1 (chemical agents and fertilizers)
category 2 (pigments, paints, dyes and anti-corrosion procts)
Category 3 (daily chemical procts, washing and care, spices)
category 4 (energy, fuel, grease)
category 5 (drugs, sanitary procts and Nutrition)
category 6 (metal procts, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics, cosmetics Metal building materials, metal materials)
class 7 (mechanical equipment, motor, transmission)
class 8 (hand tools (small), tableware, cold weapons)
class 9 (scientific instruments, electronic procts, security equipment)
class 10 (medical devices, medical supplies, alt supplies)
class 11 (lighting and sanitary ware, cold and hot equipment, electronic equipment, security equipment)
class 10 (medical devices, medical supplies, alt supplies)
class 11 (lighting and sanitary ware, cold and hot equipment Disinfection and purification)
twelfth category (transport tools, carrier parts)
thirteenth categories (arms, pyrotechnics, personal protective spray)
fourteenth category (jewelry, precious metals, Zhong Biao)
fifteenth class (musical instruments, instrumental accessories and accessories)
sixteenth categories (paper, office supplies, stationery teaching aids)
seventeenth category (rubber procts, Insulation and sound insulation materials)
class 18 (bags, leather goods, umbrellas)
class 19 (non-metallic building materials)
class 20 (furniture, furniture parts, cushions)
class 21 (kitchen appliances, household utensils, washing appliances)
class 22 (ropes, awnings, bags)
class 23 (yarn, thread, silk)
class 24 (textiles, bedclothes Towel)
category 26 (accessories, wigs, buttons and zippers)
category 27 (carpet, mat, wallpaper)
category 28 (toys, sports fitness equipment, fishing tackle)
category 29 (cooked food, meat, eggs and milk, edible oil)
category 30 (pastry, condiments, drinks)
category 31 (fresh, animals and plants, feed seeds)
category 32 (beer, meat, eggs and milk, edible oil)
category Non alcoholic beverages)
category 33 (alcohol, alcoholic beverages)
category 34 (tobacco, smoking sets)
category 35 (advertising, business management, marketing)
category 36 (financial affairs, real estate management, pawn guarantee)
category 37 (construction, interior decoration, repair and maintenance)
category 38 (telecommunications, communication services)
category 39 (transportation, warehousing, mortgage guarantee)
category Energy distribution, travel services)
class 40 (material processing, printing, sewage treatment)
class 41 (ecation and training, sports activities, entertainment services)
class 42 (R & D quality control, it services, building consulting)
class 43 (catering and accommodation, nursing, animal accommodation)
class 44 (medical treatment, beauty, gardening)
class 45 (security law Wedding (housekeeping, social service)
Hot content