Analysis and critique of an lecture Essay Example | Topics and Well Written Essays - 750 words - 1

Analysis and critique of an lecture - Essay Example He claims that 8/10 people worldwide have a religious affiliation with which they identify. He contends that even 68% atheists have a religion aspect that they follow in their life. He attributes the growth to Religion as having an effect on growth on people who have a following in any particular faith. He claims that on average, atheists are more than a decade older in comparison with those religiously affiliated. He supports this argument by offering an example of the Muslim community, which worldwide, has many women who are in the childbearing age. His argument on age in relation to religion, which he bases on findings that he has looked at, tries to show the importance of religion to an economic growth. Even so, that claim remains largely contestable. He observes that religious freedom is under threat in nearly all parts of the world. Such a threat comes mostly from government and social organization. He notes that 43% of countries are in threat of religious freedom. To support his assertions, he gives examples of government restrictions that exist in different countries. Brian is right to note that animosity arises when social religious groups then endeavor to free themselves from these restrictions. Professor Brian is trying to show the increasing religious intolerance even with increased activity to quell it by international agencies. By this, he also brings out the problem of international business interaction that is growing by day as connected with religious feuds being witnessed particular where resources are unfairly distributed based on religion and sects. He points out how social hostility is advanced mostly by sectarian groups. They exist in countries that have government restrictions. That way, Professor Brian tries to show the connection between government restriction and the current increase in sectarian war. He points out that when he goes out to give talks on the

Numerical Precision Assignment Example | Topics and Well Written Essays - 1000 words

Numerical Precision - Assignment Example 32 bits. Floating point numbers is composed of two components that is, the mantissa and the exponent. The exponent consists of eight bits value which ranges from zero to 255. On the other hand, the mantissa is twenty four bit long with 1 being its most significant bit which is usually never stored. Also, there is a sign bit (+ and -) which is used to indicate whether the number is negative or positive Floating point numbers in arithmetic calculations Floating point numbers calculations vary from machine to machine depending on the precision of the machine. Precision is the degree of correctness a given quantity can be expressed; this includes 32-bit single precision and 64-bit double precision that are stored as 8 and 10 bytes respectively. This representation makes it very easy for hardware manipulation. Assignment of these values doesn’t require the knowledge of how the various numbers are stored in memory. For calculation purposes, this requires the pulling of individual pa rts of the numbers involved and manipulating them accordingly. Floating point used in arithmetic computations are easy to work with since they are expressed to base 2 and the exponent is a decimal value that can be expressed as binary within the computer. The fixed number notation of representing floating point numbers may lead to loss of precision such as expressing results in form of 32 bits and they may be greater than 32 bits. Floating point arithmetic is slow and hence less efficient compared to integer arithmetic. Also, floating point arithmetic is less accurate due to round off errors. Floating point format is not memory efficient at all. This is because the results of computation will require additional storage in memory which may be limited. This is usually the case with majority of computers especially personal computers and it’s therefore advisable to let dedicated devices to perform floating point computations. Binary Coded Decimal format This format is a format f or representing decimal numbers such that each number is represented by a number of bits (four or eight bits).There is the packed and unpacked varied binary coded decimal formats. In the packed format, each decimal number is represented using 4 bits (nibble) while in the unpacked format each decimal is represented using a byte (8 bits). For example to represent a number like 41 in binary coded decimal format will be Packed format: 0100 0001 and the unpacked format will be 0000 0100 0001 The packed BCD format is more memory efficient since it reduces on the number of unused bits added to a number. Comparison of the BCD format to the floating point format Precision BCD values are very accurate as compared to floating point numbers. This is because BCD numbers are simply decimal numbers expressed in terms of bits and floating point number format is a scientific notation of large and small values. Performance in calculations BCD numbers are easy to convert and use in arithmetic hence th e overall arithmetic computation is always very fast and efficient. Floating point format numbers must undergo various steps of conversion before they can be used in any computation. These results in some overhead in terms of memory and time hence the computations will be slow. Memory Usage BCD format is efficient in memory usage if the packed version is used. The unpacked version results