TH76191A - Random pulse generation source And semiconductor devices, methods and programs for generating random numbers and / or probabilities using that source. - Google Patents

Abstract

DC60 (22/01/57). This invention. Will be prepared too Semiconductor devices such as ICs capable of Generating perfectly random signals And the generation of authentication signals, random numbers and probabilities by establishing a combination of a random pulse generation source for generating random pulses at Occur spontaneously within And will also be prepared Methods / programs for generating random numbers and / or Probability That comprises of the various stages of generating a random pulse source (in Here after this Will be referred to as Rpg) for generating spontaneous random pulses, measuring the intervals between random pulses generated from rpg. Or measuring the voltage of a random pulse and converting that into a digital value. And random number generation, exponential distribution, and / or A uniform random number with a preset bit length. And / or probability from random pulses as Has been digitized This invention Will be prepared too Semiconductor devices such as ICs capable of Generating perfectly random signals And the generation of authentication signals, random numbers and probabilities by establishing a combination of a random pulse generation source for generating random pulses at Occur spontaneously within And will also be prepared Methods / programs for generating random numbers and / or Probability Which consists of the various stages of generating a random pulse generator (hereinafter Will be referred to as Rpg) for generating spontaneous random pulses, measuring the intervals between random pulses generated from rpg. Or measuring the voltage of a random pulse and converting that into a digital value. And random number generation, exponential distribution, and / or A uniform random number with a preset bit length. And / or probability from random pulses as Has been digitized

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: EDIT 21/01/2015 1. Semiconductor devices That have been established In order to generate random numbers and / or probabilities By establishing a random pulse generating source (RPG) for generating spontaneous random pulses, such RPGs include Emitters for the emission of particles (formula) or beta radiation or particle (formula) and beta (particle) radiation that are released. Due to nuclear decay and was chosen From the group consisting of All nuclear types of uranium series. All nuclear types of Thorium series And all nuclear types of 210Pb-210Po or the like. Forming The radioactive balance between these nuclear types was 244Cm and 241Am. A random pulse that is generated from a rpg or a measurement of the random pulse voltage and its transformation is given. Into digital values 2. semiconductor devices According to any one of Clause 1 that has been defined The peculiarities that RPG also includes additional Detectors for detecting particles (formulas) that have been released or the like, are then used as a solution. And that solution Has been a drop on the sensing surface of the detector. Or assembly pieces Where the solution was received Vaporization is on the part Or that has been formed into a panel By the way, the rollers are obtained. The encounter with the detector is spaced with a predetermined spacing value. 3. Semiconductor devices. Clause 2, which has been defined that specific characteristics The detectors will include Type-PN semiconductor Semiconductor type - PNP photodiode, PN type phototransistor Or photodiode 4. semiconductor devices According to any one of Clause 1 that has been defined The peculiarities that RPG also includes additional The shielding wall for the emitter masking and the shield wall is at least the distance from the particle range (formula) to be applied. According to the claim No. 1, which has been characterized that Random number, exponential distribution, and / or uniform random number With the bit length Predetermined and / or probability It is generated from random pulses generated from that RPG. 6. Semiconductor devices. According to Clause 5, which has been specified that The required number of probabilities is obtained from an exponential distribution that represents the probability at the same pulse interval. Will occur during the pulse generated by the RPG in order to prepare a number Random uniform In a manner consistent with that probability 7. semiconductor devices According to claim 6, which has been characterized that Given the probability from the time interval between t1 and t2 using a nuanced distribution. Exponential Pulses with a predefined probability Will be recognized When the time t1 is greater than the assumption that time t2 is an indefinite time. 8. Semiconductor devices. According to Clause 5, which has been specified that When preparing a random number from an exponential distribution Density distribution The probability of appearing At random number, exponential distribution and random number, radical distribution The uniform has been stabilized. It will be realized by cycle variation. Basis for measurement And performing the same calculation even though the average emission rate of Pulses will be varied. 9. Semiconductor devices. Clause 8, which has been characterized as Distribution of random numbers, Exponential distribution Will be stabilized By modifying the base cycle for the measurement When preparing a random number from a distribution Exponential And generation of random numbers, uniform distribution, and generation of probabilities. Is will be processed at the same time 1 0. semiconductor devices Clause 8, which has been characterized as Operation clock variation For hardware oscillation frequency, such as microcomputer for time measurement. Will be fixed automatically by making Variation of the measurement basis loop When preparing random numbers from a randomized distribution Exponential 1 1. Semiconductor devices According to claim 1, which is characterized by that the random number generated from the RPG Are stored as an identification signal or signal. Anti cloning And the external input signal will be compared and verified with The stored signal is 1 2. semiconductor devices. According to Clause 11, which has been characterized that A new random number is rewritten as a proof whenever comparisons and proofs are performed. 1 3. Semiconductor devices. According to Clause 11, which has been characterized that Authentication data will be sent and received. 1 4. Semiconductor devices. According to Clause 13, which has been characterized that Submissions and receipts of authentication information are handled through Communicate with radio Data communication with infrared or communication of the contact circuit connection method 1 5. IC card identification IC unit that can be connected to a PC. Or modules built into the unit that includes semiconductor devices Clause 1 1 6. Methods for generating random numbers and / or probabilities It is comprised of a series of steps: measuring the time interval between random pulses being generated from a source, generating random pulses (rpgs) for generating spontaneous random pulses. The aforementioned PPG includes Emitters for the emission of particles (formula) or beta rays or particles (formulas) and beta rays (particles) that are released as a result of Nuclear decay And are selected from a group containing all the nuclear types of the series. The total nuclear uranium of the thorium series. All nuclear types of 210Pb-210Po, or the like, form a radioactive equilibrium between these nuclear types 224Cm and 241Am or random pulse voltage measurements. And digitization of that by computers and random number generation, exponential distribution. And / or uniform random numbers with Preset bit length and / or probability from random pulses as they are converted to digital values. Using a computer 1 7. Method according to Clause 16, which has been characterized that Stages of Generates a random number, exponential distribution, and / or a uniform random number with a bit length. Predetermined And / or probability from random pulses Are obtained with the required amount of probability Will be from the exponential distribution that represents Probability Where the same pulse interval will Occurs during pulses generated by rpg In order to prepare uniform random numbers in such a way that Consistent with that probability 1 8. Method according to Clause 17, which has been characterized that Stages of Generates a random number, exponential distribution, and / or a uniform random number with a bit length. Predetermined And / or the probability from the random pulse is recognized in the probability derived from The interval between t1 and t2 using an exponential distribution. Pulses that have the probability that Predetermined When there is an excess of time t1, assuming that time t2 is an indefinite time 1 9. The method of claim 16 is characterized by that Stages of Generates a random number, exponential distribution, and / or a uniform random number with a bit length. Predetermined And / or probability from random pulses Will make it come true In preparing random numbers From the exponential distribution Density distribution, the probability that they appear at random numbers Exponential and random distributions The uniform distribution has been stabilized. With the variation of the basic cycle for the measurement And performing the same calculations even though the average pulse emission rates are subject to variation. 2 0. The method in Clause 16, which is characterized by that Stages of creation Random number, exponential distribution and / or uniform random number with predefined bit length and / or random pulse probability. Will stabilize the distribution of the random numbers Exponential distribution by fundamental-cycle variation for the measurement when a random number is prepared from the exponential distribution. And will process the generation of random numbers Uniform distribution and simultaneous construction of probability 2 1. Method according to Clause 20, which has been characterized that the process of creation. Random number, exponential distribution and / or uniform random number with predefined bit length and / or random pulse probability. Will automatically correct the fluctuation of the signal Operation clock For hardware oscillating frequency such as Microcomputer for Time measurement By modifying the base cycle for the measurement When preparing random numbers from Exponential distribution -------------------------------------------------- ------------------------------------------------- 1 Semiconductor devices That have been established In order to generate random numbers and / or probabilities By establishing a random pulse generating source (RPG) for generating spontaneous random pulses, such RPGs include Emitters for the emission of particles (formula) or beta radiation or particle (formula) and beta (particle) radiation that are released. Due to nuclear decay and was chosen From the group consisting of All nuclear types of uranium series. All nuclear types of Thorium series And all nuclear types of 210Pb-210Po or the like. Forming The radioactive balance between these nuclear types was 244Cm and 241Am. A random pulse that is generated from a rpg or a measurement of the random pulse voltage and its transformation is given. Into digital values 2. semiconductor devices According to any one of Clause 1 that has been defined The peculiarities that RPG also includes additional Detectors for detecting particles (formulas) that have been released or the like, are then used as a solution. And that solution Has been a drop on the sensing surface of the detector. Or assembly pieces Where the solution was received Vaporization is on the part Or that has been formed into a panel By the way, the rollers are obtained. The encounter with the detector is spaced with a predetermined spacing value. 3. Semiconductor devices. Clause 2, which has been defined that specific characteristics The detectors will include Type-PN semiconductor Semiconductor type - PNP photodiode, PN type phototransistor Or photodiode 4. semiconductor devices According to any one of Clause 1 that has been defined The peculiarities that RPG also includes additional The shielding wall for the emitter masking and the shield wall is at least the distance from the particle range (formula) to be applied. According to the claim No. 1, which has been characterized that Random number, exponential distribution, and / or uniform random number With the bit length Predetermined and / or probability It is generated from random pulses generated from that RPG. 6. Semiconductor devices. According to Clause 5, which has been specified that The required number of probabilities is obtained from an exponential distribution that represents the probability at the same pulse interval. Will occur during the pulse generated by the RPG in order to prepare a number Random uniform In a manner consistent with that probability 7. semiconductor devices According to claim 6, which has been characterized that Given the probability from the time interval between t1 and t2 using a nuanced distribution. Exponential Pulses with a predefined probability Will be recognized When the time t1 is greater than the assumption that time t2 is an indefinite time. 8. Semiconductor devices. According to Clause 5, which has been specified that When preparing a random number from an exponential distribution Density distribution The probability of appearing At random number, exponential distribution and random number, radical distribution The uniform has been stabilized. It will be realized by cycle variation. Basis for measurement And performing the same calculation even though the average discharge rate of Pulses will be varied. 9. Semiconductor devices. Clause 8, which has been characterized as Distribution of random numbers, Exponential distribution Will be stabilized By modifying the base cycle for the measurement When preparing a random number from a distribution Exponential And generation of random numbers, uniform distribution, and generation of probabilities. Is will be processed at the same time 1 0. semiconductor devices Clause 8, which has been characterized as Operation clock variation For hardware oscillation frequency, such as microcomputer for time measurement. Will be fixed automatically by making Variation of the measurement basis loop When preparing random numbers from a randomized distribution Exponential 1 1. Semiconductor devices According to claim 1, which is characterized by that the random number generated from the RPG Are stored as an identification signal or signal. Anti cloning And the external input signal will be compared and verified with The stored signal is 1 2. semiconductor devices. According to Clause 11, which has been characterized that A new random number is rewritten as a proof whenever comparisons and proofs are performed. 1 3. Semiconductor devices. According to Clause 11, which has been characterized that Authentication data will be sent and received. 1 4. Semiconductor devices. According to Clause 13, which has been characterized that Submissions and receipts of authentication information are handled through Communicate with radio Data communication with infrared or communication of the contact circuit connection method 1 5. IC card identification IC unit that can be connected to a PC. Or modules built into the unit that includes semiconductor devices Clause 1 1 6. Methods for generating random numbers and / or probabilities It is comprised of a series of steps: measuring the time interval between random pulses being generated from a source, generating random pulses (rpgs) for generating spontaneous random pulses. The aforementioned PPG includes Emitters for the emission of particles (formula) or beta rays or particles (formulas) and beta rays (particles) that are released as a result of Nuclear decay And are selected from a group containing all the nuclear types of the series. The total nuclear uranium of the thorium series. All nuclear types of 210Pb-210Po, or the like, form a radioactive equilibrium between these nuclear types 224Cm and 241Am or random pulse voltage measurements. And digitization of that by computers and random number generation, exponential distribution. And / or uniform random numbers with Preset bit length and / or probability from random pulses as they are converted to digital values. Using a computer 1 7. Method according to Clause 16, which has been characterized that Stages of Generates a random number, exponential distribution, and / or a uniform random number with a bit length. Predetermined And / or probability from random pulses Are obtained with the required amount of probability Will be from the exponential distribution that represents Probability Where the same pulse interval will Occurs during pulses generated by rpg In order to prepare uniform random numbers in such a way that Consistent with that probability 1 8. Method according to Clause 17, which has been characterized that Stages of Generates a random number, exponential distribution, and / or a uniform random number with a bit length. Predetermined And / or the probability from the random pulse is recognized in the probability derived from The interval between t1 and t2 using an exponential distribution. Pulses that have the probability that Predetermined When there is an excess of time t1, assuming that time t2 is an indefinite time 1 9. The method of claim 16 is characterized by that Stages of Generates a random number, exponential distribution, and / or a uniform random number with a bit length. Predetermined And / or probability from random pulses Will make it come true In preparing random numbers From the exponential distribution Density distribution, the probability that they appear at random numbers Exponential and random distributions The uniform distribution has been stabilized. With the variation of the basic cycle for the measurement And performing the same calculations even though the average pulse emission rates are subject to variation. 2 0. The method in Clause 16, which is characterized by that Stages of creation Random number, exponential distribution and / or uniform random number with predefined bit length and / or random pulse probability. Will stabilize the distribution of the random numbers Exponential distribution by fundamental-cycle variation for the measurement when a random number is prepared from the exponential distribution. And will process the generation of random numbers Uniform distribution and simultaneous generation of probability 2 1. Method according to Clause 20 that has been defining the characteristics that the process of creation Random number, exponential distribution and / or uniform random number with predefined bit length and / or random pulse probability. Will automatically correct the fluctuation of the signal Operation clock For hardware oscillating frequency such as Microcomputer for Time measurement By modifying the base cycle for the measurement When preparing random numbers from Exponential distribution